9782 Series Two Cell
Conductivity/Resistivity
Analyzer/Controller
Operator’s Manual
70-82-25-74
Rev 3
6/99
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About This Document
Abstract
This manual contains instructions for installation and operation of the 9782 Series
Conductivity/Resistivity Analyzer/Controller.
Revision Notes
The following list provides notes concerning all revisions of this document.
Rev. ID
Date
Notes
0
6/98
This manual accompanies the initial release of the 9782 Series
Conductivity/Resistivity Analyzer/Controller.
1
2
3
7/98
12/98
6/99
Changes were made to Section 9 to reflect changes in the software.
Included dimension drawings for backlit and non-backlit option (Sec. 3)
Edits were made to standardize terminology and to add the latest MSG.
References
Honeywell Documents
The following list identifies all Honeywell documents that may be sources of reference for the material
discussed in this publication.
Document Title
ID #
Binder Title
Binder ID #
Trademarks
AutoClean is a trademark of Honeywell Inc.
Noryl is a trademark of GE Company.
Contacts
The following list identifies important contacts within Honeywell.
Organization
Telephone
Address
Honeywell Technical Assistance Center
1-800-423-9883
(USA and Canada)
1100 Virginia Avenue
Fort Washington, PA 19038
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Contents
1. INTRODUCTION ..................................................................................................... 1-1
1.1 Description ..................................................................................................................................... 1-1
Multi-function instrument...............................................................................................................................1-1
User interface..................................................................................................................................................1-1
Easy to configure ............................................................................................................................................1-1
Input................................................................................................................................................................1-2
Outputs............................................................................................................................................................1-2
DE (Digital integration)..................................................................................................................................1-2
Relays .............................................................................................................................................................1-2
1.2 Features .......................................................................................................................................... 1-3
Automatic cell washing...................................................................................................................................1-3
Computed values.............................................................................................................................................1-3
Automatic range scaling..................................................................................................................................1-3
Password protection........................................................................................................................................1-3
Extensive diagnostics......................................................................................................................................1-3
Watertight corrosion-resistant case.................................................................................................................1-4
Solution Temperature Compensation..............................................................................................................1-4
1.3 Operating the Analyzer/Controller................................................................................................. 1-6
1.3.1 Keypad Use ........................................................................................................................... 1-6
Front panel keys used for all operator tasks....................................................................................................1-6
Selecting a parameter for edit .........................................................................................................................1-7
Editing a parameter assignment from a list of available choices.....................................................................1-7
Editing a parameter numeric value .................................................................................................................1-7
Controlling an AutoClean operation manually................................................................................................1-7
1.3.2 Online Displays..................................................................................................................... 1-8
Introduction ....................................................................................................................................................1-8
Individual cell display.....................................................................................................................................1-8
Combined display ...........................................................................................................................................1-9
Computed value..............................................................................................................................................1-9
Clock and AutoClean....................................................................................................................................1-10
1.4 Menu Hierarchy............................................................................................................................ 1-11
Menus for every task.....................................................................................................................................1-11
1.5 Planning........................................................................................................................................ 1-13
1.5.1 Overview ............................................................................................................................. 1-13
Configuration system minimizes decisions...................................................................................................1-13
1.5.2 Using Relays........................................................................................................................ 1-13
Relays assigned during I/O setup..................................................................................................................1-13
Interactions affecting permitted relay assignments .......................................................................................1-14
1.5.3 Deciding on a Control Strategy........................................................................................... 1-16
All 9782 models can use relays for control...................................................................................................1-16
Optional analog outputs for control ..............................................................................................................1-16
Selecting a strategy.......................................................................................................................................1-16
1.6 Overview of Installation and Setup Tasks.................................................................................... 1-17
Setup tasks described in this manual.............................................................................................................1-17
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2. SPECIFICATIONS AND MODEL NUMBER............................................................ 2-1
2.1 Specifications ................................................................................................................................. 2-1
2.1.1 User Interface ........................................................................................................................ 2-1
Display............................................................................................................................................................2-1
Keypad............................................................................................................................................................2-1
2.1.2 Physical ................................................................................................................................. 2-1
Case ................................................................................................................................................................2-1
Case Dimensions.............................................................................................................................................2-1
Weight ............................................................................................................................................................2-1
Mounting ........................................................................................................................................................2-1
2.1.3 Compliance............................................................................................................................ 2-2
CE conformity.................................................................................................................................................2-2
Year 2000 .......................................................................................................................................................2-2
2.1.4 Electrical................................................................................................................................ 2-2
Power Requirements.......................................................................................................................................2-2
Fuse Rating.....................................................................................................................................................2-2
2.1.5 Model Ranges........................................................................................................................ 2-2
Standard range models....................................................................................................................................2-2
Wide range models .........................................................................................................................................2-3
2.1.6 Operating Conditions ............................................................................................................ 2-3
Operating Conditions......................................................................................................................................2-3
Performance under reference operating conditions.........................................................................................2-4
Operating Influences under normal operating conditions ...............................................................................2-4
2.1.7 Outputs .................................................................................................................................. 2-4
Standard alarm/control relays .........................................................................................................................2-4
Optional alarm/control relays .........................................................................................................................2-4
Optional analog outputs..................................................................................................................................2-4
Optional Digital Communication Link............................................................................................................2-5
2.1.8 Temperature Compensation .................................................................................................. 2-5
Availability .....................................................................................................................................................2-5
2.1.9 AutoClean.............................................................................................................................. 2-5
Cell rinse schedule settings.............................................................................................................................2-5
2.1.10 Control................................................................................................................................. 2-5
Settings ...........................................................................................................................................................2-5
2.1.11 Computed Values ................................................................................................................ 2-6
Available selections........................................................................................................................................2-6
2.2 Model Number Breakdown ............................................................................................................ 2-7
Introduction ....................................................................................................................................................2-7
3. UNPACKING, PREPARATION, AND MOUNTING ................................................. 3-1
3.1 Overview ........................................................................................................................................ 3-1
Introduction ....................................................................................................................................................3-1
What’s in this section?....................................................................................................................................3-1
3.2 Unpacking and Preparing ............................................................................................................... 3-2
Procedure........................................................................................................................................................3-2
3.3 Mounting ........................................................................................................................................ 3-3
Introduction ....................................................................................................................................................3-3
Panel-mounting...............................................................................................................................................3-3
Wall- and pipe-mounting ................................................................................................................................3-3
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4. POWER WIRING..................................................................................................... 4-1
4.1 Overview ........................................................................................................................................ 4-1
Introduction ....................................................................................................................................................4-1
What’s in this section?....................................................................................................................................4-1
4.2 General Wiring Practices for Power Wiring .................................................................................. 4-2
Safety precautions...........................................................................................................................................4-2
Avoid damage to components.........................................................................................................................4-2
Wiring for immunity compliance....................................................................................................................4-2
Conform to code .............................................................................................................................................4-3
4.3 Power Wiring Considerations ........................................................................................................ 4-3
Recommended wire size .................................................................................................................................4-3
Power supply voltage and frequency within specs..........................................................................................4-3
4.4 Installing Power Wiring ................................................................................................................. 4-4
Procedure........................................................................................................................................................4-4
5. I/O SETUP AND SYSTEM CONFIGURATION........................................................ 5-1
5.1 Overview ........................................................................................................................................ 5-1
Introduction ....................................................................................................................................................5-1
What’s in this section?....................................................................................................................................5-1
Powering up the Analyzer/Controller .............................................................................................................5-1
5.2 I/O Setup and Configuration Tasks................................................................................................ 5-2
Ease of configuration......................................................................................................................................5-2
Accessing the I/O setup and configuration menus ..........................................................................................5-2
Purpose of I/O setup .......................................................................................................................................5-2
Purpose of configuration menu items..............................................................................................................5-2
Illustrations .....................................................................................................................................................5-3
System defaults...............................................................................................................................................5-3
5.3 Performing I/O Setup ..................................................................................................................... 5-4
Purpose ...........................................................................................................................................................5-4
Display resolution and unit of measure...........................................................................................................5-4
5.4 Configuring Current Adjusting Type (CAT) Control and/or Retransmission of Process Variables5-10
Purpose .........................................................................................................................................................5-10
Procedure......................................................................................................................................................5-10
5.5 Configuring On/Off, Duration Adjusting Type (DAT), or Pulse Frequency Type (PFT) Control5-12
Purpose .........................................................................................................................................................5-12
Procedure......................................................................................................................................................5-12
5.6 Configuring Alarms...................................................................................................................... 5-16
Purpose .........................................................................................................................................................5-16
Procedure......................................................................................................................................................5-16
5.7 Setting the Clock .......................................................................................................................... 5-17
Purpose .........................................................................................................................................................5-17
Procedure......................................................................................................................................................5-17
5.8 Configuring AutoClean ................................................................................................................ 5-18
Purpose .........................................................................................................................................................5-18
Timer-initiated operation..............................................................................................................................5-18
Operator-initiated operation..........................................................................................................................5-18
Hold mode ....................................................................................................................................................5-19
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5.9 Selecting a Computed Value to Be Displayed ............................................................................. 5-21
Purpose .........................................................................................................................................................5-21
Procedure......................................................................................................................................................5-21
5.10 Summary of Menu Choices and System Defaults...................................................................... 5-23
Introduction ..................................................................................................................................................5-23
6. INPUT AND OUTPUT WIRING ............................................................................... 6-1
6.1 Overview ........................................................................................................................................ 6-1
Introduction ....................................................................................................................................................6-1
What’s in this section?....................................................................................................................................6-1
6.2 General Wiring Practices for I/O Wiring ....................................................................................... 6-2
Safety precaution ............................................................................................................................................6-2
Avoid damage to components.........................................................................................................................6-2
Immunity Compliance.....................................................................................................................................6-2
Conform to code .............................................................................................................................................6-2
Recommended maximum wire size.................................................................................................................6-3
Cables for locations without interference........................................................................................................6-3
Shielded wiring for locations with interference ..............................................................................................6-3
Avoiding interference .....................................................................................................................................6-3
References ......................................................................................................................................................6-3
6.3 Wiring Analog Inputs and Outputs................................................................................................. 6-4
Introduction ....................................................................................................................................................6-4
Cell identification significant to computed value............................................................................................6-4
Procedure........................................................................................................................................................6-4
6.4 Wiring Relays................................................................................................................................. 6-7
6.4.1 Installation............................................................................................................................. 6-7
Introduction ....................................................................................................................................................6-7
Procedure........................................................................................................................................................6-7
6.4.2 Disconnecting RC Arc Suppression Circuits ........................................................................ 6-9
Introduction ....................................................................................................................................................6-9
Procedure........................................................................................................................................................6-9
6.4.3 Wiring a Device to the Relay Indicating Output Range Status........................................... 6-10
Introduction ..................................................................................................................................................6-10
Interconnections............................................................................................................................................6-10
7. AUTOCLEAN THEORY AND PIPING..................................................................... 7-1
7.1 Overview ........................................................................................................................................ 7-1
Introduction ....................................................................................................................................................7-1
What’s in this section?....................................................................................................................................7-1
7.2 AutoClean Sequence and Piping.................................................................................................... 7-2
Rinse sequence................................................................................................................................................7-2
Select valves and fittings with appropriate pressure ratings............................................................................7-3
Minimize liquid volume in system..................................................................................................................7-3
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8. CALIBRATION ........................................................................................................ 8-1
8.1 Overview ........................................................................................................................................ 8-1
Introduction ....................................................................................................................................................8-1
What’s in this section?....................................................................................................................................8-1
Calibration menu customized for different configurations..............................................................................8-1
8.2 Recommendations for Successful Measurement and Calibration.................................................. 8-3
Selection and care of cell essential .................................................................................................................8-3
Recommendations...........................................................................................................................................8-3
8.3 Entering the Cal Factor for Each Cell ............................................................................................ 8-4
Introduction ....................................................................................................................................................8-4
Procedure........................................................................................................................................................8-4
8.4 Performing Calibration Trim.......................................................................................................... 8-5
Introduction ....................................................................................................................................................8-5
8.5 Removing Calibration Trim Values ............................................................................................... 8-7
Introduction ....................................................................................................................................................8-7
Procedure........................................................................................................................................................8-7
8.6 Determining and Entering the TDS Conversion Factor ................................................................. 8-8
Introduction ....................................................................................................................................................8-8
Determining TDS conversion factor...............................................................................................................8-8
Out-of range-values forced to closest limit.....................................................................................................8-8
Calibrate the Analyzer/Controller before entering TDS conversion factor.....................................................8-8
Procedure........................................................................................................................................................8-9
9. DIAGNOSTICS AND MESSAGES .......................................................................... 9-1
9.1 Overview ........................................................................................................................................ 9-1
Introduction ....................................................................................................................................................9-1
What’s in this section?....................................................................................................................................9-1
9.2 System Status Messages................................................................................................................. 9-2
Related to operation of Analyzer/Controller...................................................................................................9-2
9.3 Process Alarm Messages................................................................................................................ 9-3
Alarms dependent on configuration................................................................................................................9-3
9.4 On-Line Diagnostics and System Error Messages ......................................................................... 9-4
Self-tests at 0.5 second intervals.....................................................................................................................9-4
Output affected by error..................................................................................................................................9-4
9.5 Off-Line Diagnostics...................................................................................................................... 9-5
Introduction ....................................................................................................................................................9-5
9.5.1 Display and Keyboard Test................................................................................................... 9-5
Procedure........................................................................................................................................................9-5
9.5.2 Output Tests .......................................................................................................................... 9-7
Procedure........................................................................................................................................................9-7
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10. MAINTENANCE................................................................................................... 10-1
10.1 Overview .................................................................................................................................... 10-1
Introduction ..................................................................................................................................................10-1
What’s in this section?..................................................................................................................................10-1
10.2 Output Calibration...................................................................................................................... 10-3
Introduction ..................................................................................................................................................10-3
Required equipment......................................................................................................................................10-3
Procedure......................................................................................................................................................10-3
10.3 Specifying a Tagname or Other Display String ......................................................................... 10-6
Introduction ..................................................................................................................................................10-6
Procedure......................................................................................................................................................10-6
10.4 Viewing Product Information and Changing Model Number Stored in Memory...................... 10-7
Introduction ..................................................................................................................................................10-7
Procedure......................................................................................................................................................10-7
10.5 Adjusting the Screen Contrast.................................................................................................... 10-9
Introduction ..................................................................................................................................................10-9
Procedure......................................................................................................................................................10-9
10.6 Entering a Password for Security............................................................................................. 10-10
Introduction ................................................................................................................................................10-10
Procedure....................................................................................................................................................10-10
10.7 Resetting All Configuration and Calibration Values to Factory Settings................................ 10-11
Introduction ................................................................................................................................................10-11
Procedure....................................................................................................................................................10-11
10.8 Entering Values for Lead Resistance Compensation (Wide Range Only)............................... 10-12
Introduction ................................................................................................................................................10-12
Procedure....................................................................................................................................................10-14
10.9 Replacing the Fuse ................................................................................................................... 10-15
Introduction ................................................................................................................................................10-15
Procedure....................................................................................................................................................10-15
11. ACCESSORIES AND REPLACEMENT PARTS LIST ........................................ 11-1
11.1 Overview .................................................................................................................................... 11-1
Introduction ..................................................................................................................................................11-1
What’s in this section?..................................................................................................................................11-1
11.2 Part Numbers.............................................................................................................................. 11-2
Introduction ..................................................................................................................................................11-2
APPENDIX A PROPORTIONAL CONTROL TUNING ................................................A-1
Adjust effective proportional band width ......................................................................................................A-1
Treatment takes too long, but no unacceptable overshoot .............................................................................A-1
Unacceptable overshoot.................................................................................................................................A-1
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APPENDIX B TWO-CELL APPLICATIONS................................................................B-1
Ion Exchange .................................................................................................................................................B-1
Reverse Osmosis............................................................................................................................................B-1
Conductivity/Resistivity/TDS Difference ......................................................................................................B-2
Parts Rinsing..................................................................................................................................................B-2
Softener Monitoring.......................................................................................................................................B-3
Steam Power Measurements ..........................................................................................................................B-3
Sodium Hydroxide & Hydrochloric Acid Concentration Measurements.......................................................B-4
APPENDIX C MICROPROCESSOR BOARD SWITCH SETTINGS ...........................C-1
Introduction ...................................................................................................................................................C-1
Location of switches ......................................................................................................................................C-1
SW1 - all positions set to off .........................................................................................................................C-1
SW2 - settings are dependent on options.......................................................................................................C-1
APPENDIX D USING A PRECISION CHECK RESISTOR..........................................D-1
Introduction ...................................................................................................................................................D-1
Set cal factor and calibration trim for ideal conditions..................................................................................D-1
Calculations for conductivity, resistivity, and TDS .......................................................................................D-1
Concentration values......................................................................................................................................D-2
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Tables
Table 1-1 Key Functions.......................................................................................................................... 1-6
Table 1-2 9782 Conductivity/Resistivity Analyzer/Controller Menu Hierarchy................................... 1-11
Table 1-3 Available Combinations of Relay Assigments ...................................................................... 1-15
Table 1-4 Overview of Analyzer/Controller Installation Tasks............................................................. 1-17
Table 3-1 Procedure for Unpacking and Preparing the 9782................................................................... 3-2
Table 4-1 Procedure for Installing AC Power Wiring ............................................................................. 4-4
Table 5-1 Procedure for Performing I/O Setup........................................................................................ 5-6
Table 5-2 Procedure for Configuring CAT Control and/or Retransmission of Process Variables........ 5-10
Table 5-3 Procedure for Configuring On/Off Control ........................................................................... 5-13
Table 5-4 Procedure for Configuring PFT Control................................................................................ 5-14
Table 5-5 Procedure for Configuring DAT Control............................................................................... 5-15
Table 5-6 Procedure for Configuring Alarms ........................................................................................ 5-16
Table 5-7 Procedure for Setting the Clock............................................................................................. 5-17
Table 5-8 Procedure for Configuring AutoClean................................................................................... 5-19
Table 5-9 Procedure for Specifying a Computed Value ........................................................................ 5-21
Table 5-10 Menu Choices and System Defaults .................................................................................... 5-23
Table 6-1 Recommended Maximum Wire Size ....................................................................................... 6-3
Table 6-2 Procedure for Installing Analog I/O Wiring............................................................................ 6-5
Table 6-3 Relay Contact Maximum Ratings............................................................................................ 6-7
Table 6-4 Procedure for Wiring Relays ................................................................................................... 6-8
Table 6-5 Procedure for Disconnecting RC Arc Suppression Circuits.................................................... 6-9
Table 8-1 Procedure for Entering Cal Factor........................................................................................... 8-4
Table 8-2 Conductivity of Potassium Chloride Solutions at 25 °C ......................................................... 8-5
Table 8-3 Procedure for Performing Calibration Trim Using a Reference Solution ............................... 8-6
Table 8-4 Procedure for Removing Calibration Trim Values.................................................................. 8-7
Table 8-5 Procedure for Entering TDS Conversion Factor...................................................................... 8-9
Table 9-1 System Status Message............................................................................................................ 9-2
Table 9-2 Process Alarm Messages.......................................................................................................... 9-3
Table 9-3 On-Line Diagnostics and System Error Messages................................................................... 9-4
Table 9-4 Procedure For Initiating Display and Keyboard Tests............................................................. 9-5
Table 9-5 Procedure for Testing Relays and Analog Outputs ................................................................. 9-7
Table 10-1 Procedure for Calibrating Outputs....................................................................................... 10-4
Table 10-2 Procedure for Specifying a Tagname or Other Display String............................................ 10-6
Table 10-3 Procedure for Viewing Product Information and Changing the Stored Model Number.... 10-7
Table 10-4 Procedure for Adjusting the Screen Contrast ...................................................................... 10-9
Table 10-5 Procedure for Entering a Password.................................................................................... 10-10
Table 10-6 Procedure for Resetting All Configuration to Factory Settings......................................... 10-11
Table 10-7 Procedure for Entering Values for Lead Resistance Compensation.................................. 10-14
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Table 10-8 Procedure for Replacing the Fuse...................................................................................... 10-16
Table 11-1 Part Numbers ....................................................................................................................... 11-2
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Figures
Figure 1-1 9782 Front Panel..................................................................................................................... 1-5
Figure 1-2 Representative Process Value Display for a Cell in Standard Range Analyzer..................... 1-8
Figure 1-3 Representative Combined Display ......................................................................................... 1-9
Figure 1-4 Representative Computed Value Display............................................................................... 1-9
Figure 1-5 AutoClean Display ............................................................................................................... 1-10
Figure 3-1 Sample Nameplate.................................................................................................................. 3-3
Figure 3-2-1 Mounting and Dimensions - Non-Backlit Display Option.................................................. 3-4
Figure 3-2-2 Mounting and Dimensions - Non-Backlit Display Option.................................................. 3-4
Figure 3-3-1 Mounting and Dimensions - Backlit Display Option.......................................................... 3-4
Figure 3-3-2 Mounting and Dimensions - Backlit Display Option.......................................................... 3-4
Figure 4-1 AC Power Terminals .............................................................................................................. 4-5
Figure 6-1 Terminal Connections............................................................................................................. 6-6
Figure 6-2 Sample Multipoint Recorder Chart Illustrating Auto Output Range Change for Steam
Condensate Monitoring.................................................................................................................... 6-10
Figure 6-3 Interconnections between 9782 and Recorder with Range Identification by Point Change 6-11
Figure 7-1 Automatic Cell Wash Setup ................................................................................................... 7-3
Figure 10-1 Example of a Conductivity Loop...................................................................................... 10-14
Figure 10-2 Location of Power Fuse.................................................................................................... 10-18
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Introduction
1. Introduction
1.1 Description
Multi-function instrument
The Honeywell 9782 Conductivity/Resistivity Analyzer/Controller (Figure 1-1) is a
microprocessor-based instrument for analysis of conductivity, resistivity, total dissolved solids,
or concentration in industrial processes. The resolution for all measurements is +/- 0.5% of
reading (except for temperature; see below). The units of measure are:
•
conductivity: microSiemens per centimeter, microSiemens per meter, or milliSiemens per
centimeter
•
•
•
•
resistivity: megohms or kilohms
TDS: PPT, PPM or PPB
concentration: percent by weight
temperature: resolution 0.1% for 0 to 99.9 °C, and 1 C° for 100 C° and higher
User interface
An easy-to-read display provides instant access to process values. The displays of process values
show the instrument’s tagname (or other configurable text) at the top of the screen.
Every display includes an “alarm stripe”, a line dedicated to displaying process alarm messages,
status messages, and system diagnostic messages, whenever any are active. (One or more relays
can also be used for alarm annunciation; see 1.5.2.)
Dedicated-function membrane keys to the right of the display on the front panel are used to:
•
•
•
cycle through the displays of real-time values
access configuration, calibration, and maintenance menus
change and enter setpoints and other parameters
In addition, three variable function keys are below the display. The function of each of these
“soft keys” depends on the purpose of the screen currently on display. Soft key labels are always
displayed at the bottom of the screen, immediately above the relevant function key.
Easy to configure
Menu-driven configuration is fast and easy. Only configuration parameters related to features
supported by the hardware and relevant to the specific application are displayed.
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Conductivity/Resistivity Analyzer/Controller
Input
Input to the 9782 can be from any Honeywell conductivity cell at distances up to 1500 feet.
Outputs
Optional isolated 0 to 1 V, 0 to 10 V and 4 to 20 mA outputs are available. Use these analog
outputs for retransmission of process variables, or for Current Adjusting Type control using an
output signal that is directly proportional to the input (see 1.5.3).
Relays
Two 2A SPDT alarm/control relays are standard, with an additional two 3A relays (either general
purpose or hermetically sealed) available as an option (see Sub-Section 2.17). These relays can
be used to:
•
•
•
take advantage of special features such as automatic cleaning of cells
control process variables (see 1.5.3)
annunciate alarms
More details about use of relays are provided in 1.5.2.
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Introduction
1.2 Features
Automatic cell washing
The standard AutoClean feature can periodically rinse cells automatically. The schedule and
duration of the operation are configurable. An internal relay actuates external solenoid valves to
control the flow of rinse water to the cells.
Computed values
The Analyzer/Controller can calculate and display your choice of the following values:
•
•
•
•
•
ratio of the two cell inputs
difference between two cell inputs
percent passage
percent rejection
parts per million carbon dioxide (9782C-S0 only)
The equations used are in the specifications in Section 2.
Automatic range scaling
The Analyzer/Controller supports automatic range scaling of the output. If this feature is
enabled, then when the measured value falls below 10% of the output scaling limit, the output is
scaled by a factor of 10. An internal relay can be dedicated to this function. The relay closes
contacts
NC-COM when the output is scaled to the low range, and closes contacts NO-COM when the
range shift occurs. The relay can be used to control an indicator or to switch the output to a
second channel of a multipoint recorder when the range change occurs.
This output range scaling has no effect on the display. Display scaling is specified independent
of output scaling.
Password protection
A password (up to four digits) can be configured. If the security feature is enabled, the password
will be required to access configuration, calibration, and maintenance software functions.
Extensive diagnostics
The 9782 Analyzer/Controller performs extensive self-diagnostics as a background task during
normal operation. If a problem is detected, a message is displayed on the alarm stripe to alert the
operator. In addition, the operator can initiate keypad and display tests using Maintenance Menu
functions.
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Conductivity/Resistivity Analyzer/Controller
Watertight corrosion-resistant case
The 9782 is enclosed in a watertight and corrosion resistant industrial case, designed for panel,
pipe or wall mounting. It has an EMI/RFI shielded plastic case.
Solution Temperature Compensation
There are two types of 9782C Analyzer/Controller models: standard range and wide range. Both
types provide temperature compensation as described below. The standard range
Analyzer/Controller is ideal for high-purity water applications. The wide range
Analyzer/Controller is suitable for chemical solutions.
To take advantage of the temperature compensation capabilities, the appropriate solution
temperature compensation type must be entered for each cell as described in Section 5.
Standard Range - A standard range 9782 Analyzer/Controller provides true high purity
temperature compensation for deionized water as well as for routine applications. The
Analyzer/Controller also employs unique compensation algorithms for the highest accuracy in
power industry water treatment using ammonia or morpholine, as well as for cation conductivity
samples. Semiconductor resistivity measurements on acid etch rinse operations, especially with
hot deionized water, also achieve the highest available accuracy. For pharmaceutical
applications, raw conductivity data is available at the touch of a button.
For high-purity water special temperature compensation is required in the range of 0.055 to 5
microsiemens/cm per 0.2 to 18 Megohms-cm. Traditional compensation techniques used in most
analog instruments require temperature compensator selection for a reference conductivity
represented by a single curve. This method lacks the capability to accurately reflect the changing
temperature coefficient of water for variations in temperature and conductivity on either side of
that reference value. Advanced high-purity water temperature compensation determines the
conductivity of an impurity at any concentration of water at any temperature, and the interaction
between the two. It compensates these values to obtain the conductivity referenced to 25 °C.
Because the temperature coefficients involved are both high and variable, a precise temperature
measurement is required to achieve accurate compensation. To accomplish this the 9782
Analyzer/Controller first makes precise temperature measurements over a wide range, even with
long sensor leads. Second, an accurate conductivity measurement is assured by use of the cell
constant trim factor. Third, internal high resolution algorithms are used to make exact high-
purity water calculations. This high level of performance in an inexpensive, yet highly reliable
instrument is the result of over seventy years of experience in making industrial conductivity
measurements.
For power plant cation/ammonia conductivity measurements temperature compensation provides
the highest accuracy for measurements of cation exchanger effluent and acidic cation
conductivity samples with Larson Lane-type analyzers.
This compensation matches both strong inorganic and weak organic acid temperature
characteristics. Measurements of steam and condensate samples containing ammonia are also
greatly improved using this algorithm.
For power plant morphonline conductivity measurements temperature compensation was
developed specifically for this market’s water chemistry. Morpholine has unique temperature
characteristics that are handled automatically by the 9782 Analyzer/Controller.
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Introduction
For semiconductor etch rinse resistivity measurements temperature compensation provides the
most accurate measurements of used rinsewater containing traces of acidic etchants. Rinse
quality control and water reclamation monitoring can be made with greater precision when this
compensation is used.
Wide Range - A wide range Analyzer/Controller uses precise algorithms to compute
temperature-compensated conductivity, total dissolved solids (TDS), or concentration for display
and output, based on conductivity and temperature inputs. The wide range instruments are ideal
for controlling deionizer and softener regenerant dilutions. Full spectrum temperature
compensation, specifically for sodium hydroxide, sulfuric acid, hydrochloric acid and sodium
chloride, automatically provides exact correction of temperature influences as they vary with
both concentration and temperature. Readout in conductivity or ppm TDS units may also be
selected.
F2
F3
F1
+RQH\ZHOO
Figure 1-1 9782 Front Panel
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Conductivity/Resistivity Analyzer/Controller
1.3 Operating the Analyzer/Controller
1.3.1 Keypad Use
Front panel keys used for all operator tasks
As shown in Figure 1-1, five keys with dedicated functions are on the front panel. In addition,
three “soft keys” vary their function according to the needs of the screen on display. Use of the
keys is described in Table 1-1.
Table 1-1 Key Functions
Key
Name
Use
DISPLAY
When process values are on display: Use DISPLAY to cycle
through available real-time displays.
When the main menu (Configuration, Calibration,
Maintenance, I/O Setup) is on display: Use DISPLAY to
return to displaying process values.
MENU
When process values are on display: Use MENU to access
the menus. If the security feature is enabled, the display will
prompt for entry of the password before access to the menus
is permitted. (Enter the password using the procedure for
editing a parameter numeric value as described on the next
page.)
When any menu or configuration screen is on display: Use
MENU to go up a level in the display hierarchy. Frequently this
means returning to the main menu.
UP
When a menu or configuration screen is on display: Use
UP to highlight a different item.
When changing a numerical value: Use UP key to increment
the value of the digit at the cursor.
DOWN
ENTER
When a menu or configuration screen is on display: Use
DOWN to highlight a different item.
When changing a numerical value: Use DOWN to
decrement the value of the digit at the cursor.
When a menu item is highlighted: Use ENTER to select it.
When editing a parameter: Use ENTER to save the new
value.
F1, F2, F3
[function
keys]
When a “soft key” label is displayed below the alarm
stripe: Use the function key directly below the label to perform
the action.
F1
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Introduction
Selecting a parameter for edit
To select a parameter for edit:
•
•
•
display the screen containing the parameter
use the UP or DOWN keys to highlight the parameter name
press the ENTER key to highlight the displayed current value
Editing a parameter assignment from a list of available choices
To edit a parameter having a text string as an assigned value:
•
•
•
select the parameter and highlight its current value as described above
use the UP or DOWN keys to display the other valid choices
when your choice is displayed, press ENTER
Editing a parameter numeric value
To edit a parameter having a numeric value:
•
select the parameter and highlight its current value as described above; the “DPP”, ←
and → soft keys will be displayed (During calibration the ← and → soft keys will be
displayed once the UP or DOWN key has been pressed.)
•
•
•
•
use the “DPP” soft key to position the decimal point
use the ← or → soft keys to move the cursor to the digit to be changed
use the UP and DOWN keys to increment or decrement the value
when all digits necessary have been changed, press ENTER
Controlling an AutoClean operation manually
To initiate an AutoClean operation manually, press the DISPLAY key until the AutoClean
screen is displayed. Next press the “START” soft key.
This display can also be used to see how much time is remaining until the next scheduled
AutoClean operation. When AutoClean is active, the alarm stripe will display “AUTO CLEAN”,
and the AutoClean display will show 00:00:00.
If necessary, pause the operation using the “PAUSE” soft key. To resume the operation, press
“PAUSE” again. To cancel the operation, use the “STOP” soft key. If pause is left on, the
sequence will resume automatically after twenty minutes.
At the start of the AutoClean operation alarms and outputs will be held at current levels,
regardless of whether the AutoClean was scheduled or started manually. The alarms and outputs
will be held throughout the AutoClean operation.
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Conductivity/Resistivity Analyzer/Controller
1.3.2 Online Displays
Introduction
The online displays available when the operator presses the DISPLAY key depend on the
number of cells connected to the Analyzer/Controller, and on the special features used. The
instrument’s tagname (or other configurable text) is at the top of the screen for all displays
except the digital clock and the AutoClean Sequence display. Every display includes an “alarm
stripe”, a line dedicated to displaying process alarm messages, status messages, and system
diagnostic messages, whenever any are active.
Individual cell display
For each cell connected to the Analyzer/Controller an online display similar to Figure 1-2 is
provided. The information on this display includes:
•
•
the value measured by the cell, with the appropriate unit of measure filled in
an indication of whether the value is temperature compensated (TC) or not
compensated (NC); the display can be toggled between displaying compensated and
raw data using the F1 function key
•
•
the temperature in °C
if the value displayed is a percent concentration (9782C-W0 only), the chemical will
be identified above the alarm stripe
In addition of the function key used to toggle the temperature compensation display, function
keys are available to access calibration displays (without going through the menus), and to
acknowledge alarm stripe messages.
CONDENSATE
T105
TC
C1
µS
8.59
25.2°C
ALARM STRIPE
NC
CAL
ACK
Figure 1-2 Representative Process Value Display for a Cell in Standard Range Analyzer
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Introduction
Combined display
If two cells are connected to the Analyzer/Controller, then a display is available that includes the
measured variable for both cells (see Figure 1-3). Another combined display also includes the
temperature measured by each cell.
MIXED BEDS
1 AND 2
TC
C1
C2
0.58
µS
µS
0.25
ALARM STRIPE
CAL
NC
ACK
Figure 1-3 Representative Combined Display
Computed value
If the Analyzer/Controller is configured to calculate a computed value such as the ratio between
the cells’ readings, a screen will be available to display the value, along with a label (see Figure
1-4).
CATION TRAIN A
0.67
RATIO
ALARM STRIPE
NC
CAL
ACK
Figure 1-4 Representative Computed Value Display
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Conductivity/Resistivity Analyzer/Controller
Clock and AutoClean
If the 24-hour clock is turned on, a time display will be available. If AutoClean is configured,
then the AutoClean screen will be included in the display cycle (see Figure 1-5). When
AutoClean is active, the screen will display the time remaining. When this screen is on display,
the function keys can be used to control the AutoClean operation as described in 1.3.1.
AUTO CLEAN
TIME REMAINING
01: 58:29
ALARM STRIPE
START
PAUSE
STOP
Figure 1-5 AutoClean Display
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Introduction
1.4 Menu Hierarchy
Menus for every task
For your convenience, menus are provided for configuration, calibration, maintenance, and I/O
setup tasks. The menu hierarchy is shown in Table 1-2. Not every menu item applies to every
system.
Table 1-2 9782 Conductivity/Resistivity Analyzer/Controller Menu Hierarchy
Menu Item
Purpose
Where
Described
set up Analyzer/Controller to implement
your alarm and control strategy
Section 5
5.4
CONFIGURATION
CAT/RETRANSMISSION
configure parameters for using analog
outputs for control and retransmission of
process values
ALARMS
specify value to be alarmed, alarm
setpoints, deadbands, and delay
5.6
5.5
DISCRETE CONTROL
ADVANCED FEATURES
specify setpoints, range limits, etc. to use
relays for control
set the clock, set up automatic cell
cleaning, and specify the computed value
to be displayed
5.7, 5.8, 5.9
calibration functions
Section 8
CALIBRATION
CELL CAL FACTOR
CALIBRATION TRIM
enter cell-specific cal factor
8.3
calibrate system using a reference solution
with each cell; remove trim
8.4, 8.5
TDS CONVERSION FACTOR C1
TDS CONVERSION FACTOR C2
enter a process-specific total dissolved
solids conversion factor for each cell
8.6
Table 1-2 continued on next page
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Conductivity/Resistivity Analyzer/Controller
Table 1-2 9782 Conductivity/Resistivity Analyzer/Controller Menu Hierarchy
Menu Item
Purpose
Where
Described
do occasional system tasks
Sections 9 and
10
MAINTENANCE
OFF-LINE FUNCTIONS
DISPLAY TEST
[see functions listed below]
test display
[see below]
9.5.1
KEYBOARD TEST
test keyboard
9.5.1
OUTPUT TESTS
test relays and analog outputs
calibrate outputs electrically
[see functions listed below]
9.5.2
OUTPUT CALIBRATION
INSTRUMENT SETUP
INSTRUMENT TAGGING
10.2
[see below]
10.3
configure tagname or other text to be
displayed at the top of the screen
PRODUCT INFORMATION
view software version and stored model
number; if a special technical support
password is known, alter model number in
memory (in case of hardware upgrades)
10.4
SCREEN CONTRAST
SECURITY
adjust display contrast
10.5
10.6
assign password to limit access to
configuration, calibration, and maintenance
functions
RESET UNIT
reset all configuration and calibration
values back to factory settings
10.7
10.8
LEAD RESISTANCE COMP
[wide range models only]
specify wire gauge and length when long
leads are used; instrument will compensate
for these long leads
choose features, make relay and analog
output assignments
5.3
I/O SETUP
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Introduction
1.5 Planning
1.5.1 Overview
Configuration system minimizes decisions
The 9782C Analyzer/Controller was designed for easy configuration using menu displays and the
keys on the front panel. Numeric values such as setpoints and range limits are easy to enter using
the UP and DOWN keys and function keys (see 1.3). Other configuration parameter
assignments are selected by scrolling through a list of available choices using the UP and
DOWN keys.
During configuration only those parameters and choices relevant to features supported by your
Analyzer/Controller’s hardware will be available for configuration. For example, if the model
purchased does not contain hardware for the optional analog outputs, then none of the screens
relating to output configuration will be applicable.
Although configuration is a simple process, to make best use of the 9782C Analyzer/Controller
and its features, a little advance planning is recommended.
1.5.2 Using Relays
Relays assigned during I/O setup
Every 9782 model includes two internal relays. Two more relays are available as an option.
During I/O setup (see 5.3) the 9782’s software will assign relays to the features you select. The
design of the Analyzer/Controller allows multiple alarms to be assigned to one relay, allowing
greater flexibility with fewer relays. All other 9782 features using relays (AutoClean, range
status indication, and discrete control) require one relay per instance of the feature. You will not
be permitted to select features requiring more that the available number of relays.
Once a relay has been dedicated to a function, the relay will not be available for assignment to
another function. In order to get the most functionality from the available relays, plan your
strategy before implementation. The order in which features are presented (during I/O setup) for
relay assignment is:
1. Cell 1 “Advanced Features” AutoClean and range status indication
2. discrete control (both cells)
3. alarm annunciation (both cells), and Cell 2 AutoClean and range status
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Conductivity/Resistivity Analyzer/Controller
Interactions affecting permitted relay assignments
Table 1-3 is provided so that you can optimize your use of relays to implement your control
strategy. Each row in the table represents an available combination of relay assignments for a
single feature or multiple alarms.
ATTENTION
AutoClean and range status indication cannot be selected for use with two cells simultaneously.
Your choices are:
• For Cell 1 only, use AutoClean (Relay 1) and/or range status indication (Relay 2).
• For both Cell 1 and Cell 2, use AutoClean (Relays 1 and 3), with no range status indication,
nor any discrete control.
• For both Cell 1 and Cell 2, use range status indication (Relays 2 and 4), with no AutoClean,
nor any discrete control.
When reading the tables keep in mind the following:
•
The entry “Diagnostic” in the tables indicates that the relay can be used to indicate the
unit’s failure of a self-test (see 9.4).
•
The entry “or discrete control” means that the relay can be assigned to discrete control
or to one alarm. If the relay is selected for discrete control, then the alarm choice
sharing the cell in the table with “or discrete control” will not be available in that
row’s combination of relay assignments.
•
If the Analyzer/Controller has only two relays, then only the choices for Relay 1 and
Relay 2 will be available.
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Introduction
Table 1-3 Available Combinations of Relay Assigments
Features Used
Alarms Only
Relay 1
Relay 2
Relay 3
Relay 4
Alarm 1
Alarm 2
Alarm 2
Alarm 3
Alarm 3
Alarm 3
Alarm 3
Alarm 4
Alarm 4
Alarm 4
Alarm 1 and Diagnostic
Alarm 1
Alarm 2 and Diagnostic
Alarm 2 and Alarm 4
Alarm 3 and Alarm 4
Alarm 1
Alarm 2 and Alarm 4
Alarm 3 and Alarm 4
Alarm 1 and Alarm 2
Alarm 1 and Alarm 2
Alarm 1 or discrete control Alarm 2 or discrete control Alarm 3 or discrete control Alarm 4 or discrete control
Alarm 1 and Diagnostic
Alarm 2 or discrete control Alarm 3 or discrete control Alarm 4 or discrete control
Discrete Control
and Alarms
Alarm 1 or discrete control
Alarm 2 and Diagnostic
Alarm 3 or discrete control Alarm 4 or discrete control
Alarm 3 or discrete control Alarm 2 and Alarm 4
Alarm 1 or discrete control Alarm 2 and Alarm 4
Alarm 1
Cell 1 Range Status
Cell 1 Range Status
Cell 1 Range Status
Alarm 3
Alarm 3
Alarm 3
Alarm 4
Alarm 4
Alarm 4
Alarm 1 and Alarm 2
Alarm 1 and Diagnostic
Range Status
and Alarms
Alarm 1 and 2 and 3 and 4 Cell 1 Range Status
Alarm 1 and 2 and 3 and 4 Cell 2 Range Status
Alarm 1 and 2 and 3 and 4 Cell 1 Range Status
and Diagnostic
Alarm 1 and 2 and 3 and 4 Cell 2 Range Status
and Diagnostic
Cell 1 Range Status
Cell 1 Range Status
Cell 1 Range Status
Alarm 3 or discrete control Alarm 4 or discrete control
Alarm 3 or discrete control Alarm 4 or discrete control
Alarm 3 or discrete control Alarm 4 or discrete control
Range Status,
Discrete Control
and Alarms
Alarm 1 or discrete control
Alarm 1 and Alarm 2
Alarm 1 and Diagnostic
AutoClean
AutoClean
Cell 1 Range Status
Cell 1 Range Status
Alarm 3 or discrete control Alarm 4 or discrete control
AutoClean, Range
Status, and Alarms
Alarm 2 and 3 and
Diagnostic
Alarm 4 or discrete control
With or Without
Discrete Control
AutoClean
AutoClean
AutoClean
AutoClean
Alarm 2
Alarm 3
Alarm 4
Alarm 2 and Diagnostic
Alarm 2 and 3 and 4
Alarm 3
Alarm 4
AutoClean
and Alarms
AutoClean
AutoClean
Alarm 2 and 3 and 4
Alarm 2 and 3 and 4 and
Diagnostic
Alarm 2 and 3 and 4 and
Diagnostic
AutoClean
AutoClean
Alarm 2 or discrete control Alarm 3 or discrete control Alarm 4 or discrete control
Alarm 2 and Diagnostic
Alarm 3 or discrete control Alarm 4 or discrete control
AutoClean,
Discrete Control,
and Alarms
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Conductivity/Resistivity Analyzer/Controller
1.5.3 Deciding on a Control Strategy
All 9782 models can use relays for control
All 9782 models have at least two relays. (Two more relays are optional.) Unless dedicated to
other functions, these relays can be used to control process variables using the three types of
discrete control available.
•
On/Off Control using one to four cycle timers with configurable setpoint, deadband,
cycle period, and “on” time.
•
PFT (Pulse Frequency Type) Proportional-Only Control using one to four relays. The
pulse output is generated by repeated relay contact opening and closure. The frequency
of the pulse is proportional to the deviation from the configurable setpoint. The
proportional band limit and maximum pulse frequency rate are also configurable. This
type of output is used to control such devices as pulse-type electronic metering pumps.
•
DAT (Duration Adjusting Type) Proportional-Only Control using one to four relays.
Also known as time-proportioned control, DAT cycles a relay output on and off,
varying the “on” time in proportion to the deviation from setpoint. This type of output
is used to control devices such as solenoid valves.
Optional analog outputs for control
Up to three analog outputs are available as options. These current or voltage outputs can be used
to retransmit a process variable using an output signal that has been scaled. An analog output
that is directly proportional to an input can be used for Current Adjusting Type (CAT) control.
(Despite the name of this control type, voltage outputs can also be used.)
When an output is used to retransmit a process variable, the values representing 0 and 100%
outputs are configurable.
In CAT control the process values for the setpoint and proportional band limit are configurable.
Selecting a strategy
When considering whether to use On/Off control or one of the proportional-only strategies,
compare the requirements of your application with the benefits of each control type.
Proportional control will usually provide faster batch treatment with less overshoot than On/Off
control. However, it is important to note that proportional-only control is recommended only for
batch processes and for pretreatment in continuous neutralization systems.
Proportional-only control does not include any reset action. As a result, changes in reagent
demand that occur in continuous processes are not accommodated and control will not reach the
setpoint. In a batch process, reagent is added until a setpoint is reached and the batch is not
emptied until this occurs.
If you decide to use proportional-only control, select the type based on the input requirements of
the device to be controlled. See Appendix A for a discussion of tuning proportional-only control.
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Introduction
1.6 Overview of Installation and Setup Tasks
Setup tasks described in this manual
This manual contains instructions for all installation and operation tasks relating to the
Analyzer/Controller. (Instructions for installing and using the cells are provided in the manuals
supplied with the cells.) Table 1-3 provides an overview of the Analyzer/Controller installation
tasks, as well as providing references to the relevant sections of the manual.
Table 1-4 Overview of Analyzer/Controller Installation Tasks
Sequence
1
Task
Section
Consider the environmental and electrical specs when
selecting a site to install the Analyzer/Controller.
2
Unpack, inspect and mount the unit.
3
4
2
3
Check tag to confirm that unit is compatible with the voltage at
your site.
Install power wiring.
4
5
4
5
Perform I/O setup and configure the software to implement
your control strategy.
Wire inputs and outputs to match I/O setup in Step 5.
6
7
6
7
8
If AutoClean will be used, install necessary piping and valves.
Configure a tagname or other text string to be displayed at the
top of the screens showing real-time process values.
10
To limit access to I/O setup, configuration, calibration, and
maintenance functions, enter a password.
10
10
9
Display model number stored in memory and software version
number. Note these for future reference. (If you call for
technical assistance, you will need this information.)
10
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Conductivity/Resistivity Analyzer/Controller
The manual also contains:
•
information about diagnostics, status messages, and system error messages
(Section 9)
•
•
•
•
instructions for returning all parameter values to the factory settings (Section 10)
instructions for calibrating the outputs and changing the fuse (Section 10)
parts list (Section 11)
supplementary information for special applications and proportional control tuning tips
(appendices).
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Specifications and Model Number
2. Specifications and Model Number
2.1 Specifications
2.1.1 User Interface
Display
LCD dot matrix display, 128 by 64 dpi. Backlit: solid state LED. Displays Cell 1 and Cell 2
values in terms of conductivity, resistivity, concentration, or TDS (temperature compensated or
not compensated); Cell 1 and Cell 2 temperature; computed value (if enabled); time (if clock is
enabled); time remaining in AutoClean cycle (if feature is configuration); alarm conditions, and
diagnostics.
Alarm messages, status messages, and diagnostic messages are available on all displays.
Keypad
Monoplanar front panel with 8 keys. Push-button entry with tactile feedback.
2.1.2 Physical
Case
Gray Noryl plastic, NEMA 4X/IP55 Rainproof and Outdoor. Interior conductive coating to
provide effective RFI/EMI shielding.
Case Dimensions
156 x 156 x 178 mm (6 1/8 x 6 1/8 x 7 in.); panel cutout 141 x 141 mm (5.53 x 5.53 in.).
1.8 kg (4 lb).
Weight
Mounting
Panel mounting hardware supplied. Surface and pipe mounting hardware available. See Figure
3-2 or the Parts List.
2.1.3 Compliance
FM/CSA
This product has FM and CSA Hazardous Location Approval for Class I, Div. 2, Groups A, B, C
and D classified areas.
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Conductivity/Resistivity Analyzer/Controller
CE conformity
This product is in conformance with the protection requirements of the following European
Council Directives: 89/336/EEC, the Electromagnetic Compatibility Directive and 73/23/EEC,
the Low Voltage Directive. Conformance of this product with any other “CE Mark” Directive(s)
shall not be assumed.
Year 2000
This instrument will be unaffected by the occurrence of the year 2000.
2.1.4 Electrical
Power Requirements
120 +/- 10% Vac, 47-63 Hz, 15 VA.
240 +/- 10% Vac, 47-63 Hz, 15 VA.
Memory retained by EEPROM when power is off.
Fuse Rating
120V operation : 0.25 amp/250V
240V operation: 0.125 amp/250V
2.1.5 Model Ranges
Standard range models
Standard Display Ranges: 9782C-S0
Conductivity
(microsiemens/cm)
TDS**
Resistivity (ohms-cm) Cell Constant Required
(cm-1)
0-1.999*
0-19.99*
0-199.9*
0-1,999
0-1,999 ppb
1-19,990 ppb
0-199.9 ppm
0-1,999 ppm
0-10,000 ppm
0-19.99M
0-1.999M
0-199.9K
0-19.99K
0-1.999k
0.01
0.1***
1.0
10
0-19,990
25 or 50
* Equivalent µS/m ranges also available.
** For power plant degassed cation conductivity measurements.
*** Recommended cell constant for most power plant applications.
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Specifications and Model Number
Wide range models
Wide Display Ranges: 9782C-W0
Conductivity (microsiemens/cm)
TDS
Cell Constant Required (cm-1)
100-1,999
1000-19,990
0-1,999 ppm
0-19,990 ppm
0.1
1
Conductivity (millisiemens/cm)
10-199.9
0-199.9 ppt
10
25
50
10-500
—
—
20-1,000
Concentration
0-18.00% Hydrochloric Acid*
0-19.99% Sulfuric Acid
0-19.99% Sodium Hydroxide*
0-19.99% Sodium Chloride
50**
50**
25** ro 50
25** or 50
*
The maximum concentration measurable by conductivity depends on temperature. Maximum
for sodium hydroxide allowed by the 9782 Analyzer is 10% at 0º C, 13% at 25º C and 20% at
75º C with linear interpolation between these points. The maximum concentration for
hydrochloric acid is 15.5% above 40º C.
** Measurements in the lower half of the concentration ranges and below 50º C may also use
the next lower available cell constant.
2.1.6 Operating Conditions
Operating Conditions
Ambient Temperature: Normal 0 to 60 °C (32 to 140 °F), extreme -10 to +60 °C (14 to 140 °F);
storage -30 to +70°C (-22 to 158 °F).
Line Voltage: Normal 120 +/- 10% Vac (extreme 100 to 132 Vac, 47 to 63 Hz)
Normal 240 +/- 10% Vac (extreme 200 to 264 Vac, 50 to 60 Hz)
RH: 90% maximum non-condensing @ 40°C (104 °F) max.
Installation Category: II
Pollution Degree: 2
Altitude: <20,000 M (6562 ft)
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Conductivity/Resistivity Analyzer/Controller
Performance under reference operating conditions
Display Accuracy:
Standard Ranges (Conductivity/Resistivity); ±0.5% of reading.
Wide Ranges (Conductivity); ±0.5% of reading or 0.02% of span.
Concentration; ±0.5% of span, ±1% conformity to conductivity vs. concentration data tables.
Output accuracy: Adjustable to within 0.01 mA, repeatable to within ±0.1% of span.
Reference Operating Conditions: 25 ±1 °C; 10 to 40% RH; 120 or 240 Vac; process temp 25 °C
measured
Operating Influences under normal operating conditions
Effect on accuracy (% of span): Temperature: 0.05% per °C; RH: <1%; Line Voltage: <0.1%
per volt; Power Loss: memory retention by EEPROM (no batteries).
2.1.7 Outputs
Standard alarm/control relays
Two SPDT Form C general purpose relays rated 0.6 amps at 120/240 Vac, 0.6 amps at 110 Vdc,
2 amps at 30 Vdc. Maximum switching power for ac, 125 VA resistive; for dc, 60W resistive.
Optional alarm/control relays
9782C- _ _ - R2:
9782C- _ _ - R0:
Two additional SPDT Form C, rated at 3 amps at 120 Vac
or 28 Vdc, no analog outputs
Two hermetically sealed Form C, rated at 3amps at 120 Vac
or 28 Vdc, plus one analog output 0 to 1 Vdc or 0 to 10 Vdc
or isolated 4 to 20 mA.
Optional analog outputs
One, two or three 4 to 20 mA outputs are available via an optional plug-in circuit card and
program module. Isolated from ground, inputs and one another.
Maximum isolation voltage: 240 Vac (will withstand 1500V hi-pot test).
Output adjustment: to within 0.01 mA.
Repeatability: ±0.1% of span. 600 ohm maximum load resistance. Proportional to selected
output
range.
9782C- _ _ - 00:
9782C- _ _ -VC:
None
One analog output: 0 to1V or 0 to10 Vdc or isolated 4 to20
mA dc (600 ohms maximum load)
Two analog outputs: both isolated 4 to 20 mA dc.
Three analog outputs: all 4 to 20 mA dc
9782C- _ _ - C2:
9782C- _ _ - C3:
One analog output also available in combination with optional relays (see above).
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Specifications and Model Number
2.1.8 Temperature Compensation
Availability
All models can provide high resolution (0.05º C, typical) temperature compensation by
microprocessor calculation over 0 to 140º C for high purity water and concentrations as well as
routine water measurements.
standard range models: Temperature compensation algorithms are for NaCl,
acid/cation/ammonia, or morpholine.
wide range models: Temperature compensation algorithms are for NaCl, HCl,
NaOH, or H2SO4.
Displayed process value can be toggled between compensated and uncompensated while the
Analyzer/Controller is online.
2.1.9 AutoClean
Cell rinse schedule settings
Timer Cycle: Adjsutable; up to 28 days with day, hour, minute resolution.
Rinse Time: 1-1999 seconds.
Resume Process Time Delay: 1-1999 seconds.
2.1.10 Control
Settings
On/off period: 1 to 1000 seconds
On/off percent “on” time: 0 to 100%, 1% resolution.
Setpoint and proportional band limit ranges:conductivity: 0.055 to 19,999 µS/cm
resistivity: 0 to 19.99 Mohms/cm
temperature: 10 to 140 °C
DAT cycle period: 1 to 200 seconds.
PFT maximum frequency: 1 to 200 pulses/minute.
PFT pulse width: 50 ms, compatible with electronic pulse-type metering pumps.
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2.1.11 Computed Values
Available selections
Available Computed Values
Equation
Description
Range
0.001 to 19,990
Cell1
Cell2
ratio between the values
measured by the cells
Cell1−Cell2
difference between the values
measured by the cells
-19,990 to 19,990
0 to 100%
Cell1
x100
percent passage
Cell2
Cell1
percent rejection
0 to 100%
(1−
)x100
Cell2
parts per million carbon
dioxide (9782C-S0 only)
0 to 19.99 ppm
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Specifications and Model Number
2.2 Model Number Breakdown
Introduction
The model number breakdown is presented in the tables that follow.
The basic model number consists of a key number. Appended to this key number are characters
that identify the features in various categories. The meaning of the characters in each category is
presented in a table identified below. Note that because Tables III and IV do not affect I/O and
configuration parameter selection, the characters in these tables are displayed as “don’t care”
conditions (X) in product information viewed using the maintenance menu.
Instructions
9782 Analyzer Offers:
Standard - Backlit Display
Standard - 120/240 Volt Power Requirements
Standard - All models CE Compliant
Standard - All Conductivity models are 2 cell inputs
Standard - Built-in software for ON/OFF, Duration Adjusting and Pulse
Frequency Type Discrete Control with Standard and/or Optional relays,
Menu Driven Prompts for Display / Programming / Maintenance,
Text messages for Alarms/Diagnostics
Standard - FM Haz. Loc. Approval, Class I, DIV 2 (relays rated for 120 volt max)
Optional - Built-in software for proportional only Current Adjusting type control
with the selection of a 4-20 mA output(s)
9782S - Specific Ion Analyzer Offers:
Standard - All of the above
Standard - All Specific Ion models include one 4-20mA output and 4 relays
(No other options from Table II)
Select the desired key number. The arrow to the right marks the selection available.
Make one selection from Tables using the column below the proper arrow.
A dot ( ) denotes unrestricted availability.
Key Number
I
II
III
IV
_ _ _ _ _
-
_ _
-
_ _
-
_ _ _ _ _ _
-
_ _
KEY NUMBER
Selection
Availability
Description
pH/ORP
Conductivity
Specific Ion
9782P
9782C
9782S
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TABLE I - INPUTS
pH/ORP Electrodes
pH from External Pre-amp
01
02
03
04
Direct Glass/Antimony pH/ORP Electrode/Internal Pre-amp
Direct DURAFET pH electrode, Internal Pre-amp
Direct Glass from HPW7000, Hi-pHurity Water Assembly,
Internal Preamp
(Note 2)
Conductivity Cells
Range
Standard
Wide
S0
W0
(Note 3)
(Note 4)
Specific Ion
Range - 0.001 to 1990
0M
TABLE II - AVAILABLE OUTPUTS
No Outputs or Additional Relays
0-1V & 0-10 V and 4-20 mA
Two 4-20 mA
Three 4-20 mA
Two Additional Relays - Hermetically Sealed
and 0-1V, 0-10V, 4-20 mA output
00
VC
C2
C3
R0
9782 _
Availability
TABLE III - OPTIONS
Selection
P
C
S
E _ _ _ _ _
User’s Manual
Pipe Mounting Kit
English
None
_ 0 _ _ _ _
_ 1 _ _ _ _
Pipe Mounting Kit
None
Linen
Tagging
Power
_ _ 0 _ _ _
_ _ L _ _ _
_ _ S _ _ _
(Note 1)
(Note 1)
Stainless Steel
Factory Set 120 Volt Operation
_ _ _ 0 _ _
_ _ _ 1 _ _
Factory Set 240 Volt Operation
(Relay contacts rated for 120 volt maximum)
_ _ _ _ 0 _
_ _ _ _ 1 _
Certificate of
Calibration
No
Yes
TABLE IV
Factory Use Only
BD
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Specifications and Model Number
Note 1:
Customer must supply tagging information; Up to 3 lines allowed.
(22 characters for each line)
Note 2:
Note 3:
This option for use with HPW7000 assembly only.
Standard range should be selected if measuring the following
conductivity, resistivity or TDS ranges:
STANDARD RANGE
Conductivity
0-1.999
TDS
Cell Constant
0-1999 ppb
0-19,990 ppb
0-199.9 ppm
0-1999 ppm
0-10,000 ppm
0.01
0-19.99
0.1
1.0
0-199.9
0-1999
10
0-19,990
Resistivity
0-19.99M
0-1.999M
0-199.9k
0-19.99k
0-1.999k
25 or 50
Cell Constant
0.01
0.1
1.0
10
25 or 50
Note 4:
Wide range should be selected if measuring the following
conductivity, TDS or weight % concentration ranges:
WIDE RANGE
Conductivity
100-1999
TDS
Cell Constant
0-1999 ppm
0-19,990 ppm
0-199.9 ppt
0.1
1000-19,990
10-199.9 mS
10-500 mS
1.0
10
25
50
20-1000 mS
Weight % Concentration
Cell Constant
50
0-18.00% Hydrochloric Acid
0-19.99% Sulfuric Acid
50
0-19.99% Sodium Hydroxide
0-19.99% Sodium Chloride
25 or 50
25 or 50
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Unpacking, Preparation, and Mounting
3. Unpacking, Preparation, and Mounting
3.1 Overview
Introduction
This section contains instructions for unpacking, preparing, and mounting the
Analyzer/Controller. Instructions for wiring are provided in Sections 4 and 6. Software
configuration is described in Section 5.
What’s in this section?
The topics in this section are listed below.
Topic
See Page
3-1
3.1 Overview
3.2 Unpacking and Preparing
3.3 Mounting
3-2
3-3
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3.2 Unpacking and Preparing
Procedure
Table 3-1 contains procedure for unpacking and preparing the 9782.
Table 3-1 Procedure for Unpacking and Preparing the 9782
Step
Action
ATTENTION
For prolonged storage or for shipment, the instrument should be kept in its shipping
container. Do not remove shipping clamps or covers. Store in a suitable environment only
(see specifications in Section 2).
Carefully remove the instrument from the shipping container.
1
2
Compare the contents of the shipping container with the packing list.
• Notify the carrier and Honeywell immediately if there is equipment damage or shortage.
• Do not return goods without contacting Honeywell in advance.
Remove any shipping ties or packing material. Follow the instructions on any attached tags,
and then remove such tags.
3
4
All 9782 Analyzer/Controllers are calibrated and tested at the factory prior to shipment.
Examine the model number on the nameplate (Figure 3-1) to verify that the instrument has
the correct optional features. (See Section 2 for model number breakdown.)
Select an installation location that meets the specifications in Section 2. The 9782 can be
panel-, wall- or pipe-mounted (see 3.4).
5
ATTENTION
Pipe mounting is not recommended if the pipe is subject to severe vibration. Excessive vibration
may affect system performance.
If extremely hot or cold objects are near the installation location, provide radiant heat
shielding for the instrument.
6
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Unpacking, Preparation, and Mounting
Honeywell
York, PA U.S.A.
ATTENTION - UNIT SET FOR 240 VAC
9782C-S0-VC-E0010-00
S/N: 9751Y712345670001
USA WARRANTY ASSISTANCE - 1 - 800-423-9883
120/240 VAC 50/60 Hz 15VA
Contact Rating 1 & 2: 0.6 Amps at 120/240 VAC,
0.6 Amps at 110 VDC, and 2 Amps at 30 VDC.
If installed 3 & 4: 3 Amps at 120 VAC, 28 VDC.
CE
CASE: NEMA 4X
Directions: 70-82-25-74
Figure 3-1 Sample Nameplate
3.3 Mounting
Introduction
The 9782 Analyzer/Controller can be panel-, wall- or pipe-mounted.
Panel-mounting
Figures 3-2-1 and 3-2-2 (non-backlit) and 3-3-1 and 3-3-2 (backlit) show panel cutout
dimensions. They also illustrate how the instrument is attached to a panel by clamping the edges
of the cutout between the case flange and the supplied U-bracket which is fastened to the rear of
the case.
The panel may be up to 3/ 8 in. thick. Cutouts for adjacent 9782 Analyzer/Controllers may be no
closer than .687 in. horizontally and .937 in. vertically, resulting in a nominal edge-to-edge bezel
separation of .078 in.
Note that if the panel already has a cutout for a 7082 instrument, the same cutout can be used for
the 9782. If the panel has a cutout for a 7070, 7075, 7076, 7077, or 7078 instrument, a Reducer
Panel Kit is available for mounting the 9782. The part number is in Section 11.
Wall- and pipe-mounting
A bracket is available as an option for wall or pipe mounting the unit as shown in Figures 3-2-1
and 3-2-2 (non-backlit) and 3-3-1 and 3-3-2 (backlit).
The mounting bracket part number is in Section 11.
ATTENTION
Pipe mounting is not recommended if the pipe is subject to severe vibration. Excessive vibration
may affect system performance.
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Conductivity/Resistivity Analyzer/Controller
7.00 ± .040
177.80 ± 1.02
Case Outline
6.12 ± .030
155.57 ± 0.76
Square
(2) ¼-20 Tapped Holes
in rear of case for
mounting bracket
6.00
152.40
C
L
4.81
122.17
C
L
2.41
61.21
.87
22.22
Dia holes (4)
for lead wires,
accomodates
by customer
1.37
34.92
Terminal Boards
.50
12.70
2.75
69.85
conduit
+.047
- 0
+1.19
- 0
5.516
140.11
inches
millimeters
LEGEND:
min space
between
horizontal
cutouts
.687
17.45
2.76
70.05
+.047
5.516
140.11
- 0
+1.19
- 0
.125
3.18 R max
2.76
70.05
permissible
.937
23.81
Panel Cutout
min space between
vertical cutouts
7.43 ± .070
188.72 ± 1.78
7.68 ± .060
195.07 ± 1.52
3.06
77.80
1.00
IPS Pipe
(by customer)
25.40
Note 1: Do not exceed 80 lb-in torque
when tightening fastners.
Horizontal Rear Pipe Mounting
Figure 3-2-1 Mounting and Dimensions – Non-Backlit Display Option
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Unpacking, Preparation, and Mounting
inches
millimeters
LEGEND:
Vertical Rear Pipe Mounting
3.06
77.80
7.43 ±.070
188.72 ±1.78
7.68 ±.060
195.07 ±1.52
1.00
25.40
IPS Pipe
(by customer)
Note 1: Do not exceed 80 lb-in torque
when tightening fastners.
Top View
Panel Mounting
into existing 7075, 7076, 7077, and 7078 series cutouts
7.43 ±.070
1.50
188.72 ±1.78
38.10
C
L
3.00
76.20
C
L
6.43 ±0.70
163.32 ±1.78
1.06 ±.025
26.92 ±0.64
6.27 ±.040
159.26 ±1.02
.25 max.
6.35
Customer Panel
Four holes in bracket or
1/4 dia. mounting bolts
(bolts by customer)
R.H. Side View
Wall Mounting
Panel Mounting
6.63
168.40
C
L
6.43 ±0.70
163.32 ±1.78
C
L
3.31
84.07
1.00 ±.025
25.40 ±0.64
.12 min.
3.04
6.27 ±.040
159.26 ±1.02
.37 max.
9.40
7.68 ±.060
195.07 ±1.52
Customer Panel
Figure 3-2-2 Mounting and Dimensions – Non-Backlit Display Option
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7.21 ± .040
183.13 ± 1.02
Case Outline
6.12 ± .030
155.57 ± 0.76
Square
(2) ¼-20 Tapped Holes
in rear of case for
mounting bracket
6.00
152.40
C
L
4.81
122.17
C
L
2.41
61.21
.87
22.22
Dia holes (4)
for lead wires,
accomodates
by customer
1.37
34.92
Terminal Boards
.50
12.70
2.75
69.85
conduit
+.047
- 0
+1.19
- 0
5.516
140.11
inches
millimeters
LEGEND:
min space
between
horizontal
cutouts
.687
17.45
2.76
70.05
+.047
5.516
140.11
- 0
+1.19
- 0
.125
3.18 R max
2.76
70.05
permissible
.937
23.81
Panel Cutout
min space between
vertical cutouts
7.64 ± .070
194.06 ± 1.78
7.68 ± .060
195.07 ± 1.52
3.06
77.80
1.00
IPS Pipe
(by customer)
25.40
Note 1: Do not exceed 80 lb-in torque
when tightening fastners.
Horizontal Rear Pipe Mounting
Figure 3-3-1 Mounting and Dimensions – Backlit Display Option
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Unpacking, Preparation, and Mounting
inches
millimeters
Vertical Rear Pipe Mounting
LEGEND:
3.06
77.80
7.64 ±.070
194.06 ±1.78
7.68 ±.060
195.07 ±1.52
1.00
IPS Pipe
(by customer)
25.40
Note 1: Do not exceed 80 lb-in torque
when tightening fastners.
Top View
Panel Mounting
into existing 7075, 7076, 7077, and 7078 series cutouts
7.64 ±.070
1.50
194.06 ±1.78
38.10
C
L
3.00
76.20
C
L
6.43 ±0.70
163.32 ±1.78
1.27 ±.025
32.26 ±0.64
6.27 ±.040
159.26 ±1.02
.25 max.
6.35
Customer Panel
Four holes in bracket or
1/4 dia. mounting bolts
(bolts by customer)
R.H. Side View
Wall Mounting
Panel Mounting
6.63
168.40
C
L
6.43 ±0.70
163.32 ±1.78
C
L
3.31
84.07
1.21 ±.025
30.73 ±0.64
.12 min.
3.04
6.27 ±.040
159.26 ±1.02
.37 max.
9.40
7.68 ±.060
195.07 ±1.52
Customer Panel
Figure 3-3-2 Mounting and Dimensions – Backlit Display Option
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Power Wiring
4. Power Wiring
4.1 Overview
Introduction
This section contains instructions for installing ac power wiring for the Analyzer/Controller, in
preparation for configuring the software and performing I/O setup as described in Section 5.
We recommend that you wait to install input and output wiring (see Section 6) until after I/O
setup. During I/O setup the software will determine for you which relay to use for each feature.
What’s in this section?
The topics in this section are listed below.
Topic
See Page
4-1
4.1 Overview
4.2 General Wiring Practices for Power Wiring
4.3 Power Wiring Considerations
4.4 Installing Power Wiring
4-2
4-3
4-4
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Conductivity/Resistivity Analyzer/Controller
4.2 General Wiring Practices for Power Wiring
WARNING
Wiring should be performed by qualified personnel only.
Safety precautions
WARNING
A disconnect switch must be installed to break all current carrying conductors. Turn off power
before working on conductors. Failure to observe this precaution may result in serious personal
injury.
WARNING
An external disconnect switch is required for any hazardous voltage connections to the relay outputs.
Avoid damage to components
ATTENTION
This equipment contains devices that can be damaged by electrostatic discharge (ESD). As
solid state technology advances and as solid state devices get smaller, they become
increasingly sensitive to ESD. The damage incurred may not cause the device to fail
completely, but may cause early failure. Therefore, it is imperative that assemblies containing
static sensitive devices be carried in conductive plastic bags. When adjusting or performing any
work on such assemblies, grounded work stations and wrist straps must be used. If soldering
irons are used, they must also be grounded.
A grounded work station is any conductive or metallic surface connected to an earth ground,
such as a water pipe, with a 1/2 to 1 megohm resistor in series with the ground connection. The
purpose of the resistor is to current limit an electrostatic discharge and to prevent any shock
hazard to the operator. The steps indicated above must be followed to prevent damage and/or
degradation, which may be induced by ESD, to static sensitive devices.
Wiring for immunity compliance
In applications where either the power, input or output wiring are subject to electromagnetic
disturbances, shielding techniques will be required. Grounded metal conduit with conductive
conduit fittings is recommended.
Connect the ac mains through a fused disconnect switch. To ensure that the unit meets the
requirements of the EMC directive 89/336/EEC, a power line filter kit is included with each unit.
Wind three turns of each wire (14 AWG maximum) through the filter core for the two power and
protective earth leads as illustrated in Figure 4-1. The wound filter cores shall be located
external to the 9782 case within 25 cm.
Conform to code
Instrument wiring should conform to regulations of the National Electrical Code.
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Power Wiring
4.3 Power Wiring Considerations
Recommended wire size
Observe all national and local electrical codes when making power connections. Unless locally
applicable codes dictate otherwise, use 14 gauge (2.081 mm2) wire for ac power.
Power supply voltage and frequency within specs
The power supply voltage and frequency must be within the limits stated in the specifications in
Section 2.
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4.4 Installing Power Wiring
Procedure
Follow the procedure in Table 4-1 to install AC power wiring.
WARNING
Turn power off at mains before installing AC power wiring.
Table 4-1 Procedure for Installing AC Power Wiring
Action
Step
1
Check the tag on the outside of the case to be sure that the voltage rating of the unit
matches the supply voltage at your site.
ATTENTION
The unit may be damaged if you apply power with the wrong voltage.
Open the case:
2
• Grasp the bottom center portion of the front bezel and pull it downward and toward you
slightly to disengage the bottom of the bezel from the edge of the case.
• Lift the bezel gently to disengage it from the top edge of the case.
• Swing the bezel to the left. (The bezel and display assembly is mounted on pivot arms.)
The safety cover with its warning label will be visible.
Remove the safety cover by removing the single screw holding it in place.
3
4
Install a fused disconnect switch in the power line which will be connected to the
Analyzer/Controller.
•If a 230/240 Vac line is to be connected, use a 0.125 amp fuse.
•If a 110/120 Vac line is to be connected, use a 0.25 amp fuse.
To ensure that the unit meets the requirements of EMC directive 89/336/EEC, install the
power line filter kit supplied with the Analyzer/Controller. Wind three turns of each wire (14
AWG maximum) through the filter core for the two power and protective earth leads as
illustrated in Figure 4-1. The wound filter cores shall be located external to the 9782 case
within 25 cm.
5
6
Connect the power wiring to terminals L1 and L2/N as shown in Figure 4-1. Connect the hot
side of the line to terminal L1 and the grounded side of the line to terminal L2/N.
If the L2/N side of the line cannot be grounded, add an isolating transformer electrically
between the power supply and the instrument and ground the L2/N terminal.
WARNING
The ground terminal must be connected to a reliable earth ground. If metal conduit is used, connect
a bonding wire between conduits. Do not rely upon the conductive coating of the instrument case to
provide this connection. Failure to observe this precaution may result in serious personal injury.
Replace the safety cover and secure it with the screw.
7
8
Close the case and power up the unit. Do not apply power until the case is closed.
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Power Wiring
Power Terminations
L1
L2/N
PE
PE = Protective
Earth Ground
Figure 4-1 AC Power Terminals
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I/O Setup and System Configuration
5. I/O Setup and System Configuration
5.1 Overview
Introduction
This section provides instructions for performing I/O setup and for configuring the
Analyzer/Controller’s software to implement your control strategy.
What’s in this section?
The topics in this section are listed below.
Topic
See Page
5-1
5.1 Overview
5.2 I/O Setup and Configuration Tasks
5.3 Performing I/O Setup
5-2
5-4
5.4 Configuring Current Adjusting Type Control and/or Retransmission of Process
Variables
5-10
5.5 Configuring On/Off, Duration Adjusting Type (DAT) or Pulse Frequency Type
(PFT) Control
5-12
5.6 Configuring Alarms
5-16
5-17
5-18
5-21
5-23
5.7 Setting the Clock
5.8 Configuring AutoClean
5.9 Selecting a Computed Value To Be Displayed
5.10 Summary of Menu Choices and System Defaults
Powering up the Analyzer/Controller
Every time the Analyzer/Controller is powered up the unit performs a “warm reset”. During a
warm reset, alarms are not cleared, and outputs are maintained at their last value prior to the loss
of power or initiation of the warm reset. A warm reset has no effect on configuration or
calibration values.
In addition to this warm reset, a “cold reset” function is available to return ALL configuration
values to the factory settings shown in Table 5-10. During a cold reset some I/O setup values
will also be changed. In addition, the cal factor will be set to match the default cell constant, and
the calibration trim or TDS ( total dissolved solids) conversion factor will be removed,
eliminating any changes made using the calibration menu (see Section 8). All alarms will be
cleared. Analog outputs will go to zero momentarily, then go to the factory default values. A
cold reset can be initiated using a maintenance menu function as described in Section 10. It will
also be initiated during I/O setup if the measurement type, relay activation, display resolution,
cell constant, or an analog or discrete I/O assignment is changed.
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5.2 I/O Setup and Configuration Tasks
Ease of configuration
Configuring the 9782 software is fast and easy. A menu is provided for every configuration task.
You will be permitted to configure only those parameters relevant to your application and
supported by the Analyzer/Controller model you purchased. In fact, configuration screens will
contain only prompts and menu choices that apply to your application.
Accessing the I/O setup and configuration menus
Use the MENU key to access the main menu which includes CONFIGURATION and I/O
SETUP choices.
If the security feature has been enabled as described in Section 10, the password must be entered
in response to the prompt before you can proceed. (Out-of-the-box units do not require entry of a
password to access the menu system.)
Purpose of I/O setup
I/O setup can be accessed to either choose or review I/O parameters. When you choose features
during I/O setup, the software makes appropriate I/O assignments. I/O setup (see 5.3) must
precede configuration. The choices made during I/O setup determine which prompts and menu
choices are available during configuration. (Even though I/O setup is performed first, I/O
SETUP is last on the main menu because you usually only have to access this function a few
times in the life of your Analyzer/Controller.)
Purpose of configuration menu items
The configuration menu contains the following items for accessing screens used to configure the
features described below.
•
CAT/RETRANSMISSION: If the hardware supports analog outputs, configure parameters
related to use of these outputs as described in 5.4.
•
ALARMS: If one or more relays are available for annunciation of alarms, configure each
alarm input, setpoint, deadband, and delay as described in 5.6. (Alarms are assigned to
relays with I/O SETUP.)
•
•
DISCRETE CONTROL: One or more relays can be used to achieve control of process
variables using On/Off, Duration Adjusting Type (DAT) or Pulse Frequency Type (PFT)
control strategies. Configure the related parameter values as described in 5.5.
ADVANCED FEATURES: This menu item provides access to configuration screens for
the following features:
•
CLOCK SETUP: A display showing the current time can be accessed when the unit
is online. The 24-hour clock must be set before you can use the AutoClean feature
described below. Set the clock as described in 5.7.
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I/O Setup and System Configuration
•
•
AUTOCLEAN: AutoClean is a feature that lets the Analyzer/Controller periodically
rinse the cells automatically. Configure control of AutoClean as described in 5.8.
COMPUTED VALUE: The Analyzer/Controller can compute and display a value,
such as the ratio between Cell 1 and Cell 2 conductivity values or the parts per million
of carbon dioxide. Select the value to be displayed as described in 5.9. (A different
computed value can be sent to an analog output as described in 5.3.) If a computed
value is used, it is significant which cell is considered “Cell 1” and which is “Cell 2”.
This must be taken into account when wiring the inputs. See 6.3 for details.
Illustrations
The procedures in this section contains illustrations of display screens. These pictures are
intended to show the types of information displayed on each screen. However, the screens you
will actually see on your Analyzer/Controller may be different from the pictures in the manual.
The displays will be customized for the hardware and application.
System defaults
Table 5-10 contains the menu choices available (or ranges for numeric values) and system
defaults for I/O assignments and configuration parameters, as well as for values entered during
maintenance functions described in Section 10.
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5.3 Performing I/O Setup
Purpose
Before you can configure your Analyzer/Controller to implement your alarm and control strategy
you must perform I/O setup. In I/O setup you choose the features to be used, based on the
hardware capability of the 9782 model being configured. Using your selections, the software
will display the relay and analog output assignments appropriate for your application. The
choices made during I/O setup determine which prompts and menu choices are available during
configuration. For a discussion of the features available, and of the interactions affecting relay
assignments, see Section 1.
I/O setup is also used to specify relay action. The relay action used for alarm and/or control
action for all relays in the Analyzer/Controller can be specified as energized or de-energized on
alarm (or when discrete control point is ON).
In addition, I/O setup is used to specify display resolution and unit of measure (see below).
Display resolution and unit of measure
For standard range models (9782C-S0), the resolution of the display of conductivity or resistivity
can be selected. (No other displays are affected.)
•
When set to LOW, the decimal point is fixed. It remains in the same place throughout the
display range.
•
When set to HIGH, the decimal point will automatically be shifted one place to the left to
provide greater resolution when the displayed value falls below 10% of the high display
range, and conversely, be shifted back when the value increases above 10%.
This selection of low or high display range has no effect on the fixed or auto output range status.
For conductivity measurement the unit of measure can also be specified for standard range
Analyzer/Controllers. No unit of measure is displayed for wide range models. The
Analyzer/Controller automatically uses the conductivity unit of measure appropriate for the cell
constant (see Wide Display Ranges table in Sub-Section 2.1.5.)
ATTENTION
If you use I/O setup to view parameters, making no changes, a cold reset will not occur.
However, if you change any parameter other than the type of solution for which temperature
compensation should be applied, you will cause the Analyzer/Controller to perform a cold reset
(see page 5-1). This cold reset is necessary to ensure that the integrity of the unit remains intact
when critical parameters have been changed.
ATTENTION
AutoClean and range status indication cannot be selected for use with two cells simultaneously.
Your choices are:
• For Cell 1 only, use AutoClean (Relay 1) and/or range status indication (Relay 2).
• For both Cell 1 and Cell 2, use AutoClean (Relays 1 and 3), with no range status indication,
nor any discrete control.
• For both Cell 1 and Cell 2, use range status indication (Relays 2 and 4), with no AutoClean,
nor any discrete control.
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I/O Setup and System Configuration
ATTENTION
If you add an option card to the 9782, it is very important that you change the model number
stored in memory (see Section 10).
During I/O setup the software will display prompts only for those features the hardware can
support. The model number of the unit was stored in the 9782 memory at the factory. Each
combination of features has a unique model number (see Section 2). Therefore, the processor
can use this information to determine which prompts and selections are appropriate.
Entering the new number when you modify the hardware will let the processor know about the
new hardware capabilities. As a result, you will be able to configure the unit to take advantage of
features requiring that hardware.
Procedure
The procedure for I/O setup configuration is shown in Table 5-1.
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Table 5-1 Procedure for Performing I/O Setup
Step
1
Screen
Action
MENU
Go to I/O SETUP.
CONFIGURATION
CALIBRATION
MAINTENANCE
I/O SETUP
DIAGNOSTICS
| PREV | NEXT
RELAY SETTINGS
2
The first screen shows the present use of available relays.
This information is read-only.
RLY1 RLY2 RLY3 RLY4
ACLN RNGS ALM3 ALM4
In this example the 9782 has four relays. Relay 1 is used
for AutoClean. Relay 2 is used for indication of automatic
output range switching. Relay 3 is used to trigger an alarm
annunciator for Alarm 3. Relay 4 is used for Alarm 4
annunciation.
DIAGNOSTICS
| PREV | NEXT
Go to the next screen.
ANALOG OUTPUTS
3
4
The next screen shows the present assignments for the
optional current or voltage outputs, if available. This
information is read-only.1
OUTPUT1
OUTPUT2
OUTPUT3
C1
C2
RATO
DIAGNOSTICS
| PREV | NEXT
Go to the next screen.
ATTENTION
RECONFIG OF ANY I/O
SETUP PARM WILL
RESET CONFIG PARMS
TO FACTORY DEFAULTS
MENU TO EXIT
I/O setup is normally performed only once, before field
connections are made to the Analyzer/Controller. You can
also use this menu to view parameters. If you do not
change anything, you will not cause a cold reset of the
unit. You can exit now using the MENU key. If you go
past this “Attention” screen, you must go through the entire
sequence of I/O setup screens before returning to the
main menu.
DIAGNOSTICS
| PREV | NEXT
Go to the next screen.
ADVANCED FEATURES
5
Specify whether AutoClean should be enabled. If YES, a
relay will be dedicated to this use.
AUTOCLEAN
RANGE STATUS
YES
NO
Specify whether you want to use a relay to indicate when
the range shifts for the analog output based on Cell 1’s
input. (Output scaling is specified in Step 13.) If YES, a
relay will be assigned to indicate when the Cell 1 range
switch occurs.
DIAGNOSTICS
|
| NEXT
Go to the next screen.
1 If the system uses a DE option card, no analog outputs are supported by the hardware. The screen will show “DE
ENABLED”, instead of displaying output assignments.
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I/O Setup and System Configuration
Action
Step
6
Screen
DISCRETE CONTROL
If any relays are still available, the screen will display a
query about discrete control.
SELECT
YES
DIAGNOSTICS
| PREV | NEXT
DISCRETE CONTROL TYPE
7
8
If discrete control will be used, select the relay(s) to be
used and the type of control for each.
RELAY 3
RELAY 4
N/A
DAT
Go to the next screen.
DIAGNOSTICS
| PREV | NEXT
RELAY ASSIGNMENTS
If any relays are still available, then indicate which feature
will be associated with each available relay. In our
example, only Relay 3 can be assigned using this screen.
Relays 1, 2 and 4 have already been dedicated to other
functions.
RLY1 RLY2 RLY3 RLY4
ACLN RNGS AA DAT
DIAGNOSTICS
| PREV | NEXT
However, by selecting AA, all alarms can be directed to a
single relay.
RELAY ACTIVATION
STATE ON ALARM
9
The display will indicate whether relay activation in case of
alarm (or control output “ON” state) is currently ENERGIZE
or DE-ENERGIZE.
SELECT DE-ENERGIZE
Use this display to specify the desired relay action.
DIAGNOSTICS
| PREV | NEXT
MEASUREMENT TYPE
10
Specify the type of measurement to be performed by the
Analyzer/Controller.
SELECT
COND/TDS
If you specify any measurement type other than the default
(conductivity/total dissolved solids), the unit will
immediately perform a cold reset, returning all
configuration and calibration trim (or TDS factor) values to
the factory defaults.
DIAGNOSTICS
| PREV | NEXT
A cold reset will also return some I/O setup values to
factory settings. If you change the measurement type,
be sure to cycle through all the other I/O setup
screens and check that the settings are appropriate
for your application.
Go to the next screen.
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Step
11
Screen
Action
DISPLAY RESOLUTION
RESOLUTION
UOM
Use this screen to specify the display resolution, LOW
(fixed) or HIGH (automatically adjusted).
LOW
uS
Also use it to specify the unit of measure for conductivity
measurement with standard range models.
DIAGNOSTICS
| PREV | NEXT
• If the instrument is a standard range model and the cell
constant is 0.01, 0.1, or 1.0, then the choices are
microSiemens per centimeter (µS/cm) displayed as uS or
microSiemens per meter (µS/m) displayed as uSm.
• If the instrument is a standard range model and the cell
constant is 10 or greater, then the unit of measure is
always microSiemens per centimeter (µS/cm) displayed as
uS.
SELECT CELL CONSTANT
C1 0.1
C2 N/A
12
Specify the cell constant for each cell. Note that this is the
cell constant for the type of cell. The number can be found
on the label on the potted connector housing of the cell.
The cell constant is indicated by the three characters
following the four-digit series number. For example, a cell
labeled 4973-001 has a 0.01 cell constant. When in
doubt, refer to the manual supplied with the cell. 2
DIAGNOSTICS
| PREV | NEXT
Changing the cell constant causes the unit to perform a
cold reset, returning all configuration and calibration trim
(or TDS factor) values to the factory defaults.
A cold reset will also return some I/O setup values to
factory settings. If you change the measurement type,
be sure to cycle through all the other I/O setup
screens and check that the settings are appropriate
for your application.
If only one cell will be used, enter its constant for Cell 1
and select N/A for Cell 2. Step 5 in Table 6-2 outlines the
necessary wiring procedure when using Cell 1 and not Cell
2.
Go to the next screen.
2
Do not confuse this cell constant, universal for the type of cell, with the cell calibration factor that applies only to
each individual cell. The cell calibration factor is found on the plastic tag hanging from the cell lead wires. It is
entered using the calibration menu as described in Section 8.
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I/O Setup and System Configuration
Action
Step
13
Screen
SOLUTION TEMP COMP
Select the type of solution for which temperature
C1
C2
ACID/NH3/ETA
NACL
compensation should be applied.
DIAGNOSTICS
| PREV | NEXT
ANALOG OUTPUTS
14
15
If the hardware supports analog outputs, specify for each
which process variable or computed value will be
associated with the output.
OUTPUT1
OUTPUT2
OUTPUT3
C1
C2
RATO
3
DIAGNOSTICS
| PREV | NEXT
OUTPUT SCALING
OUTPUT1 LINFIXEDRNG
If analog outputs will be used, specify the scaling for each
output. 4
OUTPUT2
OUTPUT3
LINAUTORNG
BI-LINEAR
CAT (Current Adjusting Type) control uses Fixed
Linear Range only. Retransmitted process values can
be scaled. A retransmitted computed value always
uses Fixed Linear Range.
DIAGNOSTICS
| PREV | NEXT
16
At this point, you have completed the I/O setup menu. If
you have changed at least one parameter (other than
solution temperature compensation) the unit will perform a
cold reset (see page 5-1).
I/O SETUP COMPLETE
PRESS
ENTER TO CONTINUE
DIAGNOSTICS
| PREV |
UPDATING EEPROM
When you press ENTER to continue, the message
“UPDATING EEPROM” will provide feedback, letting you
know your selections have been activated.
DIAGNOSTICS
|
|
UPDATING EEPROM
PRESS ENTER
TO RETURN TO
MAIN MENU
When the update has been completed, you will be
prompted to exit the menu.
DIAGNOSTICS
|
|
3 If the system uses a DE option card, no analog outputs are supported by the hardware. The screen will show
“DE ENABLED”, instead of displaying output assignments.
4
This output range scaling has no effect on the display. Display resolution is configured using the maintenance
menu as described in Section 10.
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5.4 Configuring Current Adjusting Type (CAT) Control and/or
Retransmission of Process Variables
Purpose
If the hardware supports analog outputs, during I/O setup you had an opportunity to specify
which process variable or computed value will be associated with each output. An analog output
can be used for scaled retransmission of the value, or for Current Adjusting Type control by
means of an output signal that is directly proportional to the input signal or computed value.
Before using analog outputs, you must configure the related parameter values.
For a discussion of tuning proportional control see Appendix A.
Procedure
The procedure for configuring CAT control and/or retransmission of process variables is shown
in Table 5-2.
Table 5-2 Procedure for Configuring CAT Control and/or Retransmission of
Process Variables
Step
1
Screen
Action
MENU
Go to CONFIGURATION | CAT/RETRANSMISSION.
CONFIGURATION
CALIBRATION
MAINTENANCE
I/O SETUP
DIAGNOSTICS
| PREV | NEXT
CONFIGURATION
CAT/RETRANSMISSION
ALARMS
DISCRETE CONTROL
ADVANCED FEATURES
ATTENTION: Any value entered for one of these
parameters will take effect as soon as it is entered.
DIAGNOSTICS
| PREV | NEXT
CAT/RETRANSMISSION
CAT
2
If the Analyzer/Controller hardware only supports one
analog output, the screen at the left will be displayed when
CAT/RETRANSMISSION is selected from the menu.5
RETRANSMISSION
DIAGNOSTICS
| PREV | NEXT
If the hardware supports three analog outputs, the screen
in Step 6 will be displayed when CAT/RETRANSMISSION
is selected from the menu.
If CAT control will be used, select it from the menu.
5 If the system uses a DE option card, no analog outputs are supported by the hardware. The screen will show “DE
ENABLED”, instead of displaying analog outputs.
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I/O Setup and System Configuration
Action
Step
3
Screen
CAT CONTROL
Select an output to configure it for control.
CAT1
CAT2
CAT3
Go to the next screen.
DIAGNOSTICS
| PREV | NEXT
CAT CONTROL OUTPUT 1
SCALING LINFIXEDRNG
4
The input type and appropriate unit of measure will already
be filled in, based on the process variable or computed
value assigned to this analog output during I/O setup. The
scaling characteristic will also be filled in; CAT output is
always linear fixed-range. (All this is read-only
information.)
INPUT
SETPOINT
PB LIMIT
C1
12000µS
300µS
DIAGNOSTICS
| PREV | NEXT
Use the setpoint and proportional band parameters to
define the output span.
RETRANSMISSION
OUTPUT 1
OUTPUT 2
5
6
To configure retransmission on a unit with a single analog
output, go to CONFIGURATION |
CAT/RETRANSMISSION | RETRANSMISSION.
DIAGNOSTICS
| PREV | NEXT
To configure retransmission on a unit with three analog
outputs go to CONFIGURATION |
CAT/RETRANSMISSION and select the output to be
configured.
OUTPUT 1
SCALING LINFIXEDRNG
For each output to which a process variable or computed
value was assigned during I/O setup, the value assigned
will be displayed, as well as the type of scaling to be
applied, and the appropriate unit of measure. (This is
read-only information.)
INPUT
0%
100%
C1
0.0µS
19.0µS
DIAGNOSTICS
| PREV | NEXT
Specify the range by entering the values to be represented
by outputs of 0% and 100%. If reverse-acting output is
required, enter the high range value at the 0% prompt and
the low range value at the 100% prompt.
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5.5 Configuring On/Off, Duration Adjusting Type (DAT), or
Pulse Frequency Type (PFT) Control
Purpose
During I/O setup you had an opportunity to specify whether to use one or more relays to achieve
control of a process variable with a discrete control strategy: On/Off, DAT or PFT.
On/Off control can be implemented based on any measured or computed value.
Cell1
DAT and PFT control can be based on Cell 1 input, Cell 2 input, the computed ratio Cell2 , or the
Cell1−Cell2
computed difference
.
If you specified one or more of these discrete control types during I/O setup, you will be able to
configure the related parameter values.
For a discussion of tuning proportional control (applicable to PFT and DAT control) see
Appendix A.
Procedure
The procedure for configuring On/Off control is shown in Table 5-3.
The procedure for configuring PFT control is shown in Table 5-4.
The procedure for configuring DAT control is shown in Table 5-5.
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I/O Setup and System Configuration
Table 5-3 Procedure for Configuring On/Off Control
Step
1
Screen
Action
MENU
Go to CONFIGURATION | DISCRETE CONTROL |
CONFIGURATION
CALIBRATION
MAINTENANCE
I/O SETUP
ON/OFF.
DIAGNOSTICS
| PREV | NEXT
CONFIGURATION
CAT/RETRANSMISSION
ALARMS
ATTENTION: Any value entered for one of these control-
related parameters will take effect as soon as it is entered.
DISCRETE CONTROL
ADVANCED FEATURES
DIAGNOSTICS
| PREV | NEXT
DISCRETE CONTROL
ON/OFF
PFT
DAT
DIAGNOSTICS
|
|
ON/OFF CONTROL
CYCLE PERIOD
CYCLE TMR 1
CYCLE TMR 2
CYCLE TMR 3
CYCLE TMR 4
DIAGNOSTICS
2
3
Use this screen to specify the length of the cycle period for
all timers.
500s
To configure an individual timer associated with one of the
relays, select it from the menu.
|
|
CYCLE TIMER 1 RLY2
INPUT
The relay assigned to this On/Off control output during I/O
setup will already be filled in. (This is read-only
information.)
C1
HIGH
ACTION
SETPOINT
DEADBAND
ONTIME
15000 µS
250 µS
50%
DIAGNOSTICS
Specify the process value or computed value to be used
as the input.
|
|
Specify whether relay activation should occur when the
input’s value exceeds the setpoint (HIGH action) or falls
below the setpoint (LOW action).
Enter the setpoint.
If desired, specify a deadband. (Once the output is ON, it
will remain ON until the controlled variable differs from the
setpoint by at least the value of the deadband.)
Enter the percent of the cycle period that the relay should
stay on when the setpoint is reached.
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Table 5-4 Procedure for Configuring PFT Control
Step
1
Screen
Action
MENU
Go to CONFIGURATION | DISCRETE CONTROL | PFT.
CONFIGURATION
CALIBRATION
MAINTENANCE
I/O SETUP
DIAGNOSTICS
| PREV | NEXT
CONFIGURATION
CAT/RETRANSMISSION
ALARMS
ATTENTION: Any value entered for one of these control-
related parameters will take effect as soon as it is entered.
DISCRETE CONTROL
ADVANCED FEATURES
DIAGNOSTICS
| PREV | NEXT
DISCRETE CONTROL
ON/OFF
PFT
DAT
DIAGNOSTICS
|
|
PFT CONTROL
DB FREQ RATE 100 P/M
2
3
Specify the maximum frequency rate (in pulses per
minute) representing 100% output. (Be sure this rate is
compatible with the controlled device.) This rate will be
used for all PFT outputs in the Analyzer/Controller.
PFT1
PFT2
DIAGNOSTICS
|
|
Use this screen to select the PFT control output to be
configured.
PFT 1
The relay assigned to this PFT control output during I/O
setup will already be filled in. (This is read-only
information.)
OUTPUT
INPUT
SETPOINT
RLY2
C1
15000 µS
250 µS
PB LIMIT
DIAGNOSTICS
|
Specify the process value or computed value to be used
as the input.
|
Enter the setpoint at which the output should be turned on.
Enter the PB Limit. This is the value for which the output’s
pulse output rate will be at its maximum frequency.
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I/O Setup and System Configuration
Table 5-5 Procedure for Configuring DAT Control
Step
1
Screen
Action
MENU
Go to CONFIGURATION | DISCRETE CONTROL | DAT.
CONFIGURATION
CALIBRATION
MAINTENANCE
I/O SETUP
DIAGNOSTICS
| PREV | NEXT
CONFIGURATION
CAT/RETRANSMISSION
ALARMS
ATTENTION: Any value entered for one of these control-
related parameters will take effect as soon as it is entered.
DISCRETE CONTROL
ADVANCED FEATURES
DIAGNOSTICS
| PREV | NEXT
DISCRETE CONTROL
ON/OFF
PFT
DAT
DIAGNOSTICS
|
|
DAT CONTROL
CYCLE PERIOD 200 S
DAT1
DAT2
2
3
Specify the length of the cycle period (in seconds) for the
time-proportioned control.
Use this screen to select the DAT control output to be
configured.
DIAGNOSTICS
|
|
ON/OFF CYCLE TIMER 1
RLY2
C1
The relay assigned to this DAT control output during I/O
setup will already be filled in. (This is read-only
information.)
OUTPUT
INPUT
SETPOINT
PB LIMIT
15000 µS
250 µS
DIAGNOSTICS
|
Specify the process value or computed value to be used
as the input.
|
Enter the setpoint at which the output should be turned on.
Enter the PB Limit. This is the value for which the output’s
on duration will be maximum.
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Conductivity/Resistivity Analyzer/Controller
5.6 Configuring Alarms
Purpose
If you assigned one or more alarms to at least one relay during I/O setup (described in 5.3), then
for each alarm select the process value or computed value to be alarmed, setpoint, deadband, and
delay as described below.
Procedure
The procedure for configuring parameters for an alarm is described in Table 5-6.
Table 5-6 Procedure for Configuring Alarms
Step
1
Screen
Action
MENU
Go to CONFIGURATION | ALARMS.
CONFIGURATION
CALIBRATION
MAINTENANCE
I/O SETUP
DIAGNOSTICS
| PREV | NEXT
CONFIGURATION
CAT/RETRANSMISSION
ALARMS
ATTENTION: Any value entered for one of these alarm-
related parameters will take effect as soon as it is entered.
DISCRETE CONTROL
ADVANCED FEATURES
DIAGNOSTICS
| PREV | NEXT
ALARMS
DELAY TIME
ALARM1
2
3
Use this screen to enter a delay time to prevent brief
process upsets from activating an alarm. The delay
entered here will apply to all alarms.
3 S
ALARM2
ALARM3
ALARM4
DIAGNOSTICS
|
Select the alarm to be configured.
|
ALARM1
The relay to which the alarm was assigned during I/O
setup will be displayed as read-only information.
OUTPUT
INPUT
ACTION
SP
RLY2
C1
HIGH
15000 µS
250 µS
Enter the measured variable or computed value to be
alarmed.
DEADBAND
DIAGNOSTICS
|
|
Indicate whether this is a high or low alarm.
Enter the setpoint value at which the alarm will become
active.
Specify the deadband. Once the alarm is active, it will not
deactivate until the alarmed variable differs from the
setpoint by at least the value of the deadband.
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I/O Setup and System Configuration
5.7 Setting the Clock
Purpose
A display showing the current time can be accessed when the unit is online. The 24-hour clock
must be set before you can use the AutoClean feature described in Sub-Section 5.6.
Procedure
Follow the procedure in Table 5-7 to set the 24-hour clock.
Table 5-7 Procedure for Setting the Clock
Step
1
Screen
Action
MENU
Go to CONFIGURATION | ADVANCED FEATURES |
CONFIGURATION
CALIBRATION
MAINTENANCE
I/O SETUP
CLOCK SETUP.
DIAGNOSTICS
| PREV | NEXT
CONFIGURATION
CAT/RETRANSMISSION
ALARMS
DISCRETE CONTROL
ADVANCED FEATURES
DIAGNOSTICS
| PREV | NEXT
ADVANCED FEATURES
CLOCK SETUP
COMPUTED VALUE
AUTO CLEAN
DIAGNOSTICS
|
|
24 HOUR CLOCK SETUP
2
Set the clock. For example, if you will start the clock at
1:30 PM, enter 13 hours, 30 minutes.
CLOCK
HOURS
MINUTES
OFF
13
30
Start the clock and specify what should happen to the
clock if the power fails.
DIAGNOSTICS
|
| NEXT
• ON W/RESET starts the clock now. Following power
failure, the clock will be reset to 00:00 and the diagnostic
message “RESET CLOCK” will be displayed.
• ON W/O RESET starts the clock now. Following power
failure the clock will remain off, and the diagnostic
message “RESET CLOCK” will be displayed.
Display of ”RESET CLOCK” will continue until you either
reset the clock or turn it off.
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Conductivity/Resistivity Analyzer/Controller
5.8 Configuring AutoClean
Purpose
The AutoClean feature periodically rinses the cells automatically (see Section 7). If this feature
was selected during I/O setup (described in 5.3), configure control of AutoClean as described
below.
AutoClean configuration consists of specifying the frequency and duration of the rinses.
ATTENTION
For AutoClean to operate, the 24-hour clock must be set as described in 5.7.
The piping and valves required by AutoClean are shown in Section 7.
There are two modes of operation, timer-initiated and operator-initiated through the front panel
as described below.
Timer-initiated operation
With the 24-hour clock turned ON and the AutoClean feature enabled (and the appropriate piping
in place), this mode performs unassisted cell cleaning. The AutoClean Time Remaining on-line
display provides an up-to-date time stamp of the next occurrence of an automatic cell cleaning.
Once the timer reaches zero, the cell cleaning will occur. Upon completion, the timer will be
reset and the Time Remaining display will again provide a countdown to the next cleaning. To
temporarily disable timer-initiated AutoClean, you must either turn off the 24-hour clock (which
preserves your timer setup), or set the timer to all zeros (see Step 3 in Table 5-8). Unless the
Time Remaining display is on screen, you will not see the AUTO CLEAN message during a
scheduled cleaning.
Operator-initiated operation
To operate in this mode, you must have the AutoClean Time Remaining display on screen.
Initiate the AutoClean sequence by pressing the START soft key. Once the START soft key is
pushed, the time display will go to zero and the message “AUTO CLEAN” will appear on the
alarm stripe.
The sequence will stop cleaning if the STOP soft key is pressed or if you leave this display.
Once stopped, the Analyzer/Controller will wait for the configured resume delay time (to allow
the cell measurement to stabilize) before coming back on-line. During the resume delay the
“AUTO CLEAN” message will flash.
If the PAUSE soft key is used while the AutoClean Time Remaining display is on screen, the
AutoClean sequence will stop temporarily. If the PAUSE soft key is not pushed again to resume
the sequence, then the sequence will automatically resume in 20 minutes.
Once the AutoClean sequence has been completed (including resume delay), the “AUTO
CLEAN” message disappears and the time remaining clock will be displayed again, showing the
time remaining until the next scheduled timer-initiated cleaning.
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I/O Setup and System Configuration
Hold mode
During AutoClean operations alarms and outputs are always held. This means that no alarms
will become active during the automatic operation. If one or more relays are being used for
alarm annunciation, they will go to the non-alarm state. Analog outputs and discrete control
relays will be held at their current value or state when the operation starts.
At the completion of the AutoClean operation the hold will be released and normal operation will
resume after the configured delay.
Procedure
If AutoClean was selected during I/O setup, follow the procedure in Table 5-8 to use the
displayed screens for configuration when AUTO CLEAN is selected from the ADVANCED
FEATURES configuration menu.
Table 5-8 Procedure for Configuring AutoClean
Step
1
Screen
Action
MENU
Go to CONFIGURATION | ADVANCED FEATURES |
CONFIGURATION
CALIBRATION
MAINTENANCE
I/O SETUP
AUTO CLEAN.
DIAGNOSTICS
| PREV | NEXT
CONFIGURATION
CAT/RETRANSMISSION
ALARMS
DISCRETE CONTROL
ADVANCED FEATURES
DIAGNOSTICS
| PREV | NEXT
ADVANCED FEATURES
CLOCK SETUP
COMPUTED VALUE
AUTO CLEAN
DIAGNOSTICS
| PREV | NEXT
ATTENTION
24 HOUR CLOCK MUST
BE SETUP FOR
2
If you have already set the clock, go to the next screen.
THIS FEATURE
If you have not set the clock, press MENU to exit this
function, then set the clock as described in Sub-Section
5.7.
DIAGNOSTICS
|
| NEXT
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Conductivity/Resistivity Analyzer/Controller
Step
3
Screen
Action
AUTO CLEAN
Timer setup is used to specify the frequency of the rinses.
• If several rinses are to be performed in a single day:
TIMER SETUP
DAYS
HOURS
MINUTES
CURRENT DAY
3
16
30
2
a) specify the number of days as zero
b) specify the number of hours and minutes in the
interval between rinses.
DIAGNOSTICS
|
| NEXT
• If rinses are to occur at intervals of days:
a) specify the number of days in the interval
b) specify the time of day (hours and minutes) the
rinse should occur.
In our example, the rinse will occur every third day at
4:30 PM.
• If you plan to use AutoClean, but initiate rinses manually
using the real time AutoClean Time Remaining display:
a) specify the number of days as zero
b) specify the number of hours and minutes in the
interval between rinses as zero also.
IF YOU ENTER ALL ZEROS, NO AUTOMATIC
RINSES WILL BE PERFORMED.
Specify where today falls in the AutoClean cycle. For
example, if the interval for rinses is 3 days and you want
the first rinse to be tomorrow, specify that today is day 2.
AUTO CLEAN
4
Enter the duration of the rinse (in seconds).
RINSE SETUP
DURATION
RESUME DELAY
Enter the number of seconds the Analyzer/Controller
should wait after the rinse before resuming normal
operation.
180
60
DIAGNOSTICS
| PREV | NEXT
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I/O Setup and System Configuration
5.9 Selecting a Computed Value to Be Displayed
Purpose
The Analyzer/Controller can calculate and display a computed value. The available values are:
Cell1
Cell2
• RATIO: ratio between the values measured by the cells;
Cell1−Cell2
• DIFFERENCE: difference between the values measured by the cells;
Cell1
x100
Cell2
• %PASSAGE: computed percent passage:
Cell1
(1−
)x100
Cell2
• %REJECTION: computed percent rejection:
• PPMCO2: computed parts per million carbon dioxide (standard range analyzers only)
Appendix B includes examples of applications using these values.
ATTENTION
If a computed value is used, it is significant which cell is considered “Cell 1” and which is
“Cell 2”. This must be taken into account when wiring the inputs. See 6.3 for details.
Procedure
Use the procedure in Table 5-9 to specify a computed value.
Table 5-9 Procedure for Specifying a Computed Value
Step
1
Screen
Action
MENU
Go to CONFIGURATION | ADVANCED FEATURES |
CONFIGURATION
CALIBRATION
MAINTENANCE
I/O SETUP
COMPUTED VALUE.
DIAGNOSTICS
| PREV | NEXT
CONFIGURATION
CAT/RETRANSMISSION
ALARMS
DISCRETE CONTROL
ADVANCED FEATURES
DIAGNOSTICS
| PREV | NEXT
ADVANCED FEATURES
CLOCK SETUP
COMPUTED VALUE
AUTO CLEAN
DIAGNOSTICS
| PREV | NEXT
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Conductivity/Resistivity Analyzer/Controller
Step
2
Screen
Action
COMPUTED VALUE
Specify the value to be computed.
SELECT
DIFFERENCE
DIAGNOSTICS
| NEXT
|
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I/O Setup and System Configuration
5.10 Summary of Menu Choices and System Defaults
Introduction
Table 5-10 contains the menu choices available (or ranges for numeric values) and system
defaults for I/O assignments and configuration parameters, as well as for values entered during
maintenance functions described in Section 10, and the TDS conversion factor entered using the
calibration menu described in Section 8. Not every choice shown in this table applies to every
application.
Table 5-10 Menu Choices and System Defaults
PARAMETER
CHOICES or RANGE
(Default is underlined)
9782C-S0
I/O setup: measurement type
COND/TDS [total dissolved solids]
RESISTIVITY
9782C-W0
COND/TDS
CONCENTRATION
9782C-S0
I/O setup: solution temperature compensation type
NaCl
NH3/ACID/ETA
MORPHOLINE
NaCl (TDS)
NH3 (TDS)
MORPHOLINE(TDS)
9782C-W0
NaCl
HCl
NaOH
H2SO4
NaCl(TDS)
HCl(TDS)
NaOH)TDS)
H2SO4(TDS)
0.01
0.1
I/O setup: cell constant for Cell 1
1.0
10.0
5.0
25.0
50.0
0.01
0.1
I/O setup: cell constant for Cell 2
1.0
10.0
5.0
25.0
50.0
N/A
NO
YES
I/O setup: AutoClean enabled
I/O setup: range status enabled
NO
YES
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Conductivity/Resistivity Analyzer/Controller
PARAMETER
CHOICES or RANGE
(Default is underlined)
NO
I/O setup: discrete control enabled
YES
PFT
I/O setup: discrete control type for each available relay
DAT
O/F [on/off]
N/A
ENERGIZE
I/O setup: relay activation on alarm/control
DE-ENERGIZE
I/O setup: display unit of measure (conductivity only)
standard range models with cell constant ≤ 1:
uS (microSiemens per centimeter)
uSm (microSiemens per meter)
standard range models with cell constant of 10,25,or 50:
uS (microSiemens per centimeter) only
wide range models: automatially change from uS to mS
depending on cell constant; no selection available.
ALM1 [alarm 1] default for Relay 1
ALM2 [alarm 2] default for Relay 2
ALM3 [alarm 3] default for Relay 3
ALM4 [alarm 4] default for Relay 4
A1/D [alarm 1 or diagnostic]
A2/D [alarm 2 or diagnostic]
A3/D [alarm 3 or diagnostic]
A4/D [alarm 4 or diagnostic]
A1/2 [alarm 1 or 2]
I/O setup: relay alarm assignments
A3/4 [alarm 3 or 4]
12/D [alarm 1 or 2 or diagnostic]
AA/D [any alarm or diagnostic]
234D [alarm 2 or 3 or 4 or diagnostic]
RNGD [range switch or diagnostic]
AA [any alarm]
RNGS [range switch]
C1 [Cell 1 value]
I/O setup: analog output basis [unless DE is enabled]
C2 [Cell 2 value]
TMP1 [temperature value from Cell 1]
TMP2 [temperature value from Cell 2]
Cell1
Cell2
RATO [computed ratio:
]
Cell1
Cell2
(1−
)x100
%REJ [computed percent rejection:
]
Cell1
x100
Cell2
%PSG [computed percent passage:
]
Cell1−Cell2
DIFF [computed difference:
]
CO2 [computed parts per million carbon dioxide -
standard range analyzers only]
LINFIXEDRNG [linear fixed range] always selected for
computed value
configuration: retransmission output scaling
LINAUTORNG [linear auto range]
2DECADELOG
BI-LINEAR
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I/O Setup and System Configuration
PARAMETER
CHOICES or RANGE
(Default is underlined)
range depends on measurement type and cell constant;
default is value of lower range limit
configuration: retransmission 0%
configuration: retransmission 100%
range depends on measurement type and cell constant;
default is value of upper range limit
configuration: CAT control setpoint value
configuration: alarm setpoint value
configuration: configuration: On/Off control cycle timer
setpoint value
configuration: PFT control setpoint value
configuration: DAT control setpoint value
range depends on measurement type and cell constant;
default is value of upper range limit
configuration: CAT control proportional band limit
configuration: alarm deadband
configuration: On/Off control cycle timer deadband
configuration: PFT control proportional band limit
configuration: DAT control proportional band limit
0 to 100 seconds, default = 0
configuration: alarm delay
C1 [Cell 1 value]
configuration: process variable or computed value to
C2 [Cell 2 value]
be used as basis for discrete control output
TMP1 [temperature value from Cell 1]
TMP2 [temperature value from Cell 2]
T1/2 [temperature 1 and/or 2 - only available for
configuration: process variable or computed value
alarmed
alarming]
Cell1
Cell2
RATO [computed ratio:
]
Cell1
Cell2
(1−
)x100
%REJ [computed percent rejection:
]
Cell1
x100
Cell2
%PSG [computed percent passage:
]
Cell1−Cell2
DIFF [computed difference:
]
CO2 [computed parts per million carbon dioxide -
9782C-S0 only]
HIGH
LOW
configuration: alarm action
0 to 1000 seconds, default = 60
configuration: On/Off control cycle timer period
configuration: On/Off control cycle timer “on” time
configuration: PFT control maximum pulse frequency
configuration: DAT control cycle period
0 to 100% at 1% resolution, default = 100
1 to 200 pulses per minute, default = 60
0 to 200 seconds, default = 60
OFF
configuration: 24-hour clock set mode
ON W/ RESET
ON W/O RESET
0 to 24, default = 1
0 to 59, default = 0
0 to 28, default = 0
0 to 24, default = 1
0 to 59, default = 0
configuration: 24-hour clock set hour
configuration: 24-hour clock set minute
configuration: AutoClean timer set day
configuration: AutoClean timer set hour
configuration: AutoClean timer set minutes
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Conductivity/Resistivity Analyzer/Controller
PARAMETER
CHOICES or RANGE
(Default is underlined)
0 to 28, default = 0
configuration: AutoClean current day
1 to 1999 seconds, default = 60
configuration: AutoClean rinse duration
configuration: AutoClean resume delay
NONE
configuration: computed value selection
Cell1
Cell2
RATIO [computed ratio:
]
Cell1−Cell2
DIFFERENCE [computed difference:
]
Cell1
Cell2
x100
%PASSAGE [computed percent passage:
%REJECTION [computed percent rejection
]
Cell1
(1−
)x100
Cell2
:
]
PPMCO2 [computed parts per million carbon dioxide -
9782C-S0 only]
LOW
HIGH
maintenance: display resolution
maintenance: security enabled
maintenance: password
YES
NO
0000 to 9999; default = 0000
12
14
16
18
maintenance: lead resistance compensation wire gauge
(AWG)
wide range models only
1 to 1500 feet default = 1
maintenance: lead resistance compensation length
wide range models only
standard range models with cell constant of 1, 10, 25, or
50:
calibration: TDS conversion factor
0.01 to 1.999; default = 0.5 ppm
standard range models with cell constant of 0.01 or 0.1:
10 to 1999; default = 500 ppb
wide range models for all cell constants:
0.01 to 1.999; default = 0.5 ppm
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Input and Output Wiring
6. Input and Output Wiring
6.1 Overview
Introduction
This section contains instructions for installing input and output wiring for the
Analyzer/Controller.
We recommend that you wait to install input and output wiring until after I/O setup (see
Section 5). During I/O setup the software will determine for you which relay to use for each
feature.
ATTENTION
If you plan to use a computed value such as the difference between the cell readings, it matters
which cell is “Cell 1” and which is “Cell 2”. See 6.4.3 for details.
ATTENTION
For successful measurement in pure water applications where plastic piping is used, you may
have to provide an earth ground for the cell. If the cell constant is 0.01, 0.1, or 1.0, run a wire
from the screw terminal (on the Analyzer/Controller ) to which the black wire in the cell lead is
attached to the lower card retainer bracket screw. (See Note 4 in Figure 6-1.)
Do not ground cells having cell constants of 10, 25, or 50.
What’s in this section?
The topics in this section are listed below.
Topic
See Page
6-1
6.1 Overview
6.2 General Wiring Practices for I/O Wiring
6.3 Wiring Analog Inputs and Outputs
6.4 Wiring Relays
6-2
6-4
6-7
WARNING
While the unit is powered, a potentially lethal shock hazard exists inside the case. Do not open
the case while the unit is powered. Disconnect power before installing I/O wiring. More than one
switch may be required to disconnect power.
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Conductivity/Resistivity Analyzer/Controller
6.2 General Wiring Practices for I/O Wiring
WARNING
Wiring should be performed by qualified personnel only.
Safety precaution
WARNING
A disconnect switch must be installed to break all current carrying conductors. Turn off power
before working on conductors. Failure to observe this precaution may result in serious personal
injury.
WARNING
An external disconnect switch is required for any hazardous voltage connections to the relay
outputs.
Avoid damage to components
ATTENTION
This equipment contains devices that can be damaged by electrostatic discharge (ESD).
The damage incurred may not cause the device to fail completely, but may cause early failure.
Therefore, it is imperative that assemblies containing static sensitive devices be carried in
conductive plastic bags. When adjusting or performing any work on such assemblies,
grounded work stations and wrist straps must be used. If soldering irons are used, they must
also be grounded.
A grounded work station is any conductive or metallic surface connected to an earth ground,
such as a water pipe, with a 1/2 to 1 megohm resistor in series with the ground connection. The
purpose of the resistor is to current limit an electrostatic discharge and to prevent any shock
hazard to the operator. The steps indicated above must be followed to prevent damage and/or
degradation, which may be induced by ESD, to static sensitive devices.
Immunity Compliance
In applications where either the power, input or output wiring are subject to electromagnetic
disturbances, shielding techniques will be required. Grounded metal conduit with conductive
conduit fittings is recommended.
Conform to code
Instrument wiring should conform to national and local electrical codes.
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Input and Output Wiring
Recommended maximum wire size
Table 6-1 Recommended Maximum Wire Size
Gage Number
mm2
Description
power and relays
14
see Parts List
18
2.081
0.823
0.823
inputs*
isolated outputs
* Automatic compensation for input lead resistance is available. See Section 10 for details.
Cables for locations without interference
For steel (metal) conduit or open wiring away from any sources of interference, use
recommended Honeywell cables listed in the parts list in Section 11.
Shielded wiring for locations with interference
In applications where plastic conduit or open wire trays are used, shielded 6-conductor 22 gage
(0.326 mm2) or heavier signal input wiring is required.
Avoiding interference
Instrument wiring is considered Level 1, per section 6.3 of IEEE STD. 518 for plant facilities
layout and instrumentation application. Level 1 wiring must not be run close to higher level
signals such as power lines or drive signals for phase fired SCR systems, etc. Unprotected input
wiring in high electrical noise environments is subject to electromagnetic, electrostatic, and radio
frequency interference pickup of sufficient magnitude to overload input filters. The best
instrument performance is obtained by keeping the interfering signals out of the instruments
altogether by using proper wiring practices.
References
Refer to the following when wiring the unit.
•
IEEE STD. 518, Guide for the Installation of Electrical Equipment to Minimize Electrical
Noise Inputs to Controllers from External Sources.
•
Appropriate wiring diagram supplied with cells.
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Conductivity/Resistivity Analyzer/Controller
6.3 Wiring Analog Inputs and Outputs
Introduction
Every 9782 Analyzer/Controller requires input signals from the cells.
In addition, some 9782 models provide from one to three analog output signals (current and/or
voltage) that can be used to retransmit process variables, or to provide Current Adjusting Type
control (see 1.5.3).
Wiring these analog inputs and outputs is described here. Wiring relay outputs is described in
6.4.
Cell identification significant to computed value
The 9782 can compute a value (choices listed below), then display the value, and, if desired, use
it as the basis for control or alarming. (Sample applications are shown in Appendix B.) Each of
these computed values is calculated based on the process variable value measured by both cells.
Therefore, it matters which cell is considered “Cell 1” and which is “Cell 2”. The
Analyzer/Controller determines the cell’s identity based upon which terminals receive the cell’s
input (see Figure 6-1). If you have set up the 9782’s software to use a computed value, be
sure to wire the cell leads correctly.
The available computed values are:
Cell1
Cell2
• RATIO: ratio between the values measured by the cells;
Cell1−Cell2
• DIFFERENCE: difference between the values measured by the cells;
Cell1
x100
Cell2
• %PASSAGE: computed percent passage:
Cell1
(1−
)x100
Cell2
• %REJECTION: computed percent rejection:
• PPMCO2: computed parts per million carbon dioxide (9782C-S0 only)
Procedure
Follow the procedure in Table 6-2 to install analog I/O wiring.
WARNING
While the unit is powered, a potentially lethal shock hazard exists inside the case. Do not open
the case while the unit is powered. Disconnect power before installing I/O wiring. More than one
switch may be required to disconnect power.
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Input and Output Wiring
Table 6-2 Procedure for Installing Analog I/O Wiring
Step
1
Action
Go to I/O SETUP to view the displays showing analog input, relay, and analog output use.
Note the assignments shown. You must wire the unit to match these assignments in order
for the unit to work as expected. (See Section 5.)
2
3
Turn off the power to the Analyzer/Controller. More than one switch may be required
to remove power.
With the power off, open the case:
• Grasp the bottom center portion of the front bezel and pull it downward and toward you
slightly to disengage the bottom of the bezel from the edge of the case.
• Lift the bezel gently to disengage it from the top edge of the case.
• Swing the bezel to the left. (The bezel and display assembly is mounted on pivot arms.)
The safety cover with its warning label will be visible.
4
5
With the power off remove the safety cover by removing the single screw holding it in
place.
Connect the inputs from the cells to the terminals in accordance with the system setup
assignments. Refer to the wiring diagram provided with the cells and to Figure 6-1*.
* There are 2 resistors, one for cell 2 input and one for cell 2 thermistor input, which are installed in every unit at
the factory. These resistors are required if only cell 1 input is being utilized. If cell 2 input is being utilized, remove
these resistors from the unit. These resistors can be saved and used as Precision Check Resistors. See
Appendix D for details.
If analog outputs are to be used, connect the outputs from the Analyzer/Controller terminals
in accordance with the system setup assignments. Refer to the wiring diagrams provided
with the field devices receiving the signals and to Figures 6-1.
6
If the relay outputs are to be used, leave the unit open and powered down. See 6.4.
If the relays will not be used, replace the safety cover and secure it with the screw.
Close the case and power up the unit. Do not apply power with the case open.
7
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Conductivity/Resistivity Analyzer/Controller
Relay Terminals
(optional)
Case (as viewed from front)
NO
Note 3
Relay 3
Note 6
COM
NC
NO
SH
G
COM
NC
NO
COM
NC
Relay 4
Note 6
No. 2 Temp.
Compensator
NO
R
G
COM
NC
I(+)
I(-)
+10V 2000 min
VCom
4-20 mA 600 min
No. 1 Temp.
Compensator
R
W
+1V 200 min
Cell 2
Electrodes
NC
1
2
K
CO M
Relay 2
Note 1
W
3
4
5
6
7
8
NO
NC
+
Cell 1
Electrodes
mA
-
Relay 1
Note 1
K
CO M
NO
+10
VC
+1
L1 (K)
L2 /N
120V/240V
15A
50-60 Hz
Note 5
NOTES:
Note 4
1. Relay 1 & 2 contacts max. ratings
(Resistive Load)
9
Current: 2A AC or DC
Voltage: 250 VAC, 220 VDC
Switching Power: 125VA, AC: 60 W, DC.
2. See Cell Connection Diagram or directions
for wiring restrictions.
Power &
Voltage & Current
Output Terminals
Relay Terminals
3. Coaxial cable used with greater than 20 ft.
cell/Analyzer seperation with Standard
Range instruments only.
Two-Cell Cat. 9782 with Output/relays
4. For pure water samples in plastic piping,
ground the black cell electrode lead near
the cell. Alternately, connect to the 9782
ground screw as shown dotted. DO NOT
ground 10, 25 or 50 constant cells.
5. Analyzer is factory set for 120V operation.
For 240V operation, see "Power
Connections" in this manual.
Case (as viewed from front)
Output Board
Connections
(4-20 mA)
Note 3
O UT 1 -
1
SH
O UT 1 +
2
No. 2 Temp.
Compensator
6. Relay 3 & 4 contact ratings 3A @ 120V AC/
28 VDC resistive.
G
O UT 2 -
3
4 O UT 2 +
R
O UT 3 -
5
1
NC
No. 1 Temp.
Compensator
G
6 O UT 3 +
Relay 2
Com
2
R
Note 1
NO
3
Cell 2
W
Electrodes
4
NC
K
Color Code
5
Relay 1
Com
Cell 1
Electrodes
W
Note 1
NO
6
K- black
Y- yellow
K
7
8
9
L1(K)
L2/N
120V/240V 15A
50-60 Hz
Note 5
W- white A- gray
Note 4
G- green
R- red
V- violet
P- pink
S- slate
B- blue
Power &
Relay Terminals
N- brown T- tan
O- orange
Two-Cell Cat. 9782 - MultiOptions
a/n 23177
Figure 6-1 Terminal Connections
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Input and Output Wiring
6.4 Wiring Relays
6.4.1 Installation
Introduction
Every 9782 model includes two relay outputs that can be used with special features such as
AutoClean and output range status indication, or to perform On/Off, Pulse Frequency Type or
Duration Adjusting Type control, or for alarm annunication. In additon to these two standard
relays, two more are available as an option.
The Analyzer/Controller can be programmed for these relays to de-energize on alarm, or to
energize on alarm. Use the maintenance menu to specify relay action. (see 10.11.)
If set to de-energize on alarm, this means that when an alarm occurs (or the discrete control point
becomes active), the relay coil will be de-energized. The NC contacts will then be closed and the
NO contacts will be open. Conversely, during normal non-alarm operation (or when the control
point is not active) the NC contacts will be open, and the NO contacts will be closed.
If de-energize on alarm is selected, a power loss will force all relays to the same position as an
alarm condition.
The relay contact maximum ratings are in Table 6-3.
Table 6-3 Relay Contact Maximum Ratings
0.6 amps at 120/240 Vdc, 0.6 amps at 110 Vdc,
2 amps at 30 Vdc
Current, Standard:
3A, 120 Vac or 28 Vdc
120/240 Vac
Current, Optional:
Voltage, Standard:
ac - 125 VA resistive
dc - 60 watts resistive
Switching Power, Standard:
CAUTION
Alarm circuits are not internally fused in the Analyzer/Controller. Provision for fuses in external
circuits is recommended.
Procedure
Follow the procedure in Table 6-3 to install relay output wiring.
If the RC arc suppression circuits in the Analyzer/Controller interfere with other devices at your
site, refer to 6.4.2 for instructions for disconnecting the suppression circuits.
If a relay is being used to indicate automatic output range change, see 6.4.3 for guidance in
wiring a device to the relay.
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Conductivity/Resistivity Analyzer/Controller
WARNING
While the unit is powered, a potentially lethal shock hazard exists inside the case. Do not
open the case while the unit is powered. More than one switch may be required to
disconnect power.
Table 6-4 Procedure for Wiring Relays
Step
1
Action
If you have not already noted the relay assignments made during I/IO setup, go to I/O
SETUP on the main menu to view the display showing relay output use. Note the
assignments shown. You must wire the unit to match these assignments in order for the
unit to work as expected. (See Section 5.)
2
3
Turn off the power to the Analyzer/Controller. More than one switch may be required
to remove power.
With the power off, open the case:
• Grasp the bottom center portion of the front bezel and pull it downward and toward you
slightly to disengage the bottom of the bezel from the edge of the case.
• Lift the bezel gently to disengage it from the top edge of the case.
• Swing the bezel to the left. (The bezel and display assembly is mounted on pivot arms.)
The safety cover with its warning label will be visible.
4
5
With the power off remove the safety cover by removing the single screw holding it in
place.
Wire the relays in accordance with the system setup assignments. Refer to the wiring
diagram provided with the external device receiving the output and to Figure 6-1.
WARNING
An external disconnect switch is required for any hazardous voltage connections to the relay outputs.
Replace the safety cover and secure it with the screw.
6
7
Close the case and power up the unit. Do not apply power until the case is closed.
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Input and Output Wiring
6.4.2 Disconnecting RC Arc Suppression Circuits
Introduction
Relay contacts are protected by RC arc suppression circuits. Alternating current leakage through
these circuits may be sufficient to trigger very light ac loads such as neon bulbs, PLC logic
inputs, continuity testers, etc. If this leakage cannot be tolerated, the suppression circuits may be
disconnected as described below.
Procedure
Follow the procedure in Table 6-5 to disconnect the RC arc suppression circuits.
Table 6-5 Procedure for Disconnecting RC Arc Suppression Circuits
Step
Action
1
Turn off the power to the Analyzer/Controller. More than one switch may be required
to remove power.
2
With the power off, open the case:
• Grasp the bottom center portion of the front bezel and pull it downward and toward you
slightly to disengage the bottom of the bezel from the edge of the case.
• Lift the bezel gently to disengage it from the top edge of the case.
• Swing the bezel to the left. (The bezel and display assembly is mounted on pivot arms.)
The safety cover with its warning label will be visible.
3
With the power off remove the safety cover by removing the single screw holding it in
place.
Disconnect and tag all wiring from the terminal boards.
4
5
Remove the circuit card retainer clamp at the top of the case. Then slide all the circuit cards
half way out of the case.
On the right-most vertical printed circuit card (power supply) remove 330 ohm resistors R29
and R30 for Relay 1, and R31 and R32 for Relay 2 from the upper corner of the card.
6
7
If the auxiliary relays are installed, also remove 330 ohm resistors R39, R40, R44 and R45
from those optional assemblies (see Figure 6-1).
Reconnect all wiring removed in Step 4.
8
9
Replace the safety cover and secure it with the screw.
10
Close the case and power up the unit. Do not apply power until the case is closed.
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Conductivity/Resistivity Analyzer/Controller
6.4.3 Wiring a Device to the Relay Indicating Output Range Status
Introduction
If the automatic output range change feature is selected during I/O setup, one relay is dedicated
to this function. The relay can be used to control an indicator, or to switch the output to a second
channel of a multipoint recorder when the range change occurs (see Figure 6-2). Check the
current relay assignments as described in Section 5 to determine whether a relay was assigned to
this feature.
This feature closes contacts NC-COM when the output is scaled to the low range (Range 1 in
Figure 6-2) and closes contacts NO-COM when scaled to the high range (Range 2 in Figure
6-2).
Interconnections
The range change capability illustrated in Figure 6-2 is accomplished with interconnections
shown in Figure 6-3. Similar range identification could be obtained using a 2-pen or event-pen
recorder.
Point 1/Terminals 1 - low range (0-1µS/cm)
Point 2/Terminals 2 - high range (0-10 µS/cm)
Resistors “R” across the recorder inputs are needed to ensure that the unused point will remain at
the low end of scale. The resistance value can be anything from 500 ohms to 1 Mohm.
(simulated
condenser
leak)
Range 1
Range 2
0
0
.2
2
.4
4
.6
6
.8
8
1.0
10
a/n 23178
Figure 6-2 Sample Multipoint Recorder Chart Illustrating Auto Output Range
Change for Steam Condensate Monitoring
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Input and Output Wiring
Multi-point Recorder
Input Terminal Board
6
4
2
6
5
3
1
5
4
9782 Conductivity Analyzer
3
2
R
R
1
NO
NC
1
2
3
4
+
mA
-
5
6
+10
VC
7
+1
8
9
where R = 250 ohms
a/n 23179
Figure 6-3 Interconnections between 9782 and Recorder with Range Identification
by Point Change
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Conductivity/Resistivity Analyzer/Controller
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AutoClean Theory and Piping
7. AutoClean Theory and Piping
7.1 Overview
Introduction
The AutoClean feature periodically rinses the cells automatically as described in this section. To
take advantage of this feature you must:
• Select it during I/O setup (see Section 5).
• Set the clock, and specify the frequency and duration of the rinse (see Section 5).
• Wire the relay assigned to this operation during I/O setup to operate the necessary valves.
(See Section 6 for relay wiring.)
• Install piping and valves as diagrammed in this section.
What’s in this section?
The topics in this section are listed below.
Topic
See Page
7-1
7.1 Overview
7.2 AutoClean Sequence and Piping
7-2
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Conductivity/Resistivity Analyzer/Controller
7.2 AutoClean Sequence and Piping
Rinse sequence
The AutoClean operation occurs at the configured intervals. (It can also be initiated by the
operator; see Sub-Section 5.8 for details.) The sequence is described below.
1
All alarm action is held at existing levels. The outputs are also held throughout the
AutoClean operation.
Pressing the DISPLAY key will call up a special display that shows how much time
remains until the start of the next scheduled AutoClean sequence. While the cleaning
operation is taking place, “AUTO CLEAN” is displayed on the alarm stripe on the Time
Remaining display. The clock will show 00:00:00.
2
3
4
Relay 1 activates 3-way solenoid valve S1 (see Figure 7-1) to direct rinsing fluid to the
cells for the configured rinse duration (1 to 1999 seconds). If the measured sample is
normally returned to the process but quantities of rinsing fluid cannot be tolerated there,
use an additional 3-way solenoid valve S4. It is activated simultaneously with S1 to divert
the discharge to drain.
At the end of the configured rinse time Relay 1 de-activates solenoid valve S1 (and S4, if
used). After the configured delay period (1 to 1999 seconds) the Analyzer/Controller
resumes sampling the process. (During the resume delay the “AUTO CLEAN” message
flashes.) Note that even with S4 for diversion, one system volume of washing fluid will
pass to the process at this point.
The “AUTO CLEAN” message is cleared.
Note that the operator can make the operation pause using the “soft key” on the special
AutoClean Time Remaining display. If the operator does not remove the pause by pressing the
PAUSE soft key again, the Analyzer/Controller will resume normal operation after 20 minutes.
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AutoClean Theory and Piping
rinse/cleaning
solution
9782
to process
cell
S4
to drain
S1
process
sample
Items outside this area
provided byuser
Automatic Wash Setup
Outputs & Alarms Held
Rinse Duration (seconds)
Relay 1 Activated
Resume DelayTime (seconds)
NormalOperation
0.222"
1.709"
0.588"
TIME
Interval Between Rinses
(daysor hours)
AutoClean Operation
a/n 23185
Figure 7-1 Automatic Cell Wash Setup
Select valves and fittings with appropriate pressure ratings
Make the process connections as shown in Figure 7-1. Be sure that valves and fittings (S1) have
sufficient pressure ratings to withstand pressure peaks which will occur when process flow is
blocked.
Minimize liquid volume in system
Keep pipe sizes small and couplings close to minimize the liquid volume in the system. Smaller
volumes require less time to rinse.
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Calibration
8. Calibration
8.1 Overview
Introduction
Each type of cell has an associated cell constant entered during I/O setup (see Section 5). This
number is part of the cell model number. However, for greater precision, every Honeywell cell is
individually tested at the factory, and a calibration factor unique to that cell is determined. The
cal factor for a cell can be found on the plastic tag hanging from the cell lead wires. Instructions
for entering this cell cal factor are in 8.3.
For some conductivity applications even greater accuracy is required. For those applications it is
possible to perform a calibration trim procedure. The Analyzer/Controller’s reading can be
adjusted while the associated cell is measuring a reference solution of known conductivity, as
described in 8.4. The same procedure can be used to adjust the Analyzer/Controller’s reading
while the cell is in the process, if a reference instrument is used to determine the conductivity of
the process. In this case the process fluid becomes the “reference solution”.
Calibration trim can be removed as described in 8.5
For accurate measurement of total dissolved solids (TDS) a conversion factor is entered for each
cell as described in 8.6.
ATTENTION
Any time a cold reset is performed, the calibration trim and TDS values will be removed.
The cal factor will be reset to match the cell constant.
What’s in this section?
The topics in this section are listed below.
Topic
See Page
8-1
8.1 Overview
8.2 Recommendations for Successful Measurement and Calibration
8.3 Entering the Cal Factor for Each Cell
8.4 Performing Calibration Trim
8-3
8-4
8-5
8.5 Removing Calibration Trim Values
8.6 Determining and Entering the TDS Conversion Factor
8-7
8-8
Calibration menu customized for different configurations
The choices available on the menu displayed when CALIBRATION is selected from the main
menu depend on the choices made for solution temperation compensation during I/O setup (see
Step 13 in Table 5-1).
If neither cell’s solution temperature setup uses total dissolved solids (TDS), then the calibration
menu contains the following choices:
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Conductivity/Resistivity Analyzer/Controller
CELL CAL FACTOR
CAL TRIM C1
CAL TIRM C2
REMOVE CAL TRIM C1
REMOVE CAL TRIM C2
If the Cell 1 solution temperature compensation is set up without TDS, and Cell 2 with TDS,
then the calibration menu will be:
CELL CAL FACTOR
CAL TRIM C1
TDS CVSN FACTOR C2
REMOVE CAL TRIM C1
REMOVE CAL TRIM C2
If both cells’ solution temperature compensation is set up with TDS, then the calibration menu
will be:
CELL CAL FACTOR
TDS CVSN FACTOR C1
TDS CVSN FACTOR C2
REMOVE CAL TRIM C1
REMOVE CAL TRIM C2
Therefore, the screens on your unit may not match exactly the calibration menus used in the
procedure tables in this section.
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Calibration
8.2 Recommendations for Successful Measurement and Calibration
Selection and care of cell essential
Successful measurements and calibration depend upon selection and care of the cells. Always
prepare cells and their mountings in accordance with the instructions supplied with them,
observing temperature, pressure and flow limitations.
Recommendations
Note the following recommendations:
•
For most accurate temperature measurement and compensation, insulate the outer body of the
cell to minimize the effect of ambient conditions on process temperature measurement.
•
•
•
Rinse the cells thoroughly with de-ionized water before immersing in a reference solution.
Always deactivate control or alarm circuits before removing cells from the process.
Do calibration trim with a reference solution which is at about the same temperature and
conductivity as the process solution.
•
Inspect and, if necessary, clean the cells periodically according to experience and conditions.
ATTENTION
For successful measurement in pure water applications where plastic piping is used, you may
have to provide an earth ground for the cell. If the cell constant is 0.01, 0.1, or 1.0, run a wire
from the black electrode terminal of the cell to the lower card retainer bracket screw. Do not
ground cells having cell constants of 10, 25, or 50.
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Conductivity/Resistivity Analyzer/Controller
8.3 Entering the Cal Factor for Each Cell
Introduction
Each type of cell has an associated cell constant; this number is part of the cell model number.
The constant for each cell is entered during I/O setup. However, for greater precision, every
Honeywell cell is individually tested at the factory, and a calibration factor unique to that cell is
determined. The cal factor for a cell can be found on the plastic tag hanging from the cell lead
wires.
ATTENTION
Any time you replace a cell, even with another cell of the same type, enter the cal factor for the
replacement cell.
Procedure
To enter the cal factor for each cell, follow the procedure in Table 8-1.
Table 8-1 Procedure for Entering Cal Factor
Step
1
Screen
Action
MENU
CONFIGURATION
CALIBRATION
Go to CALIBRATION | CELL CAL FACTOR.
MAINTENANCE
I/O SETUP
The cell constant entered for each cell during I/O setup will
be displayed.
DIAGNOSTICS
|
|
To enter the unique cal factor for each cell, use the
indicated function key to go into edit mode.
CALIBRATION
CELL CAL FACTOR
CAL TRIM 1
CAL TRIM 2
REMOVE CAL TRIM C1
REMOVE CAL TRIM C2
DIAGNOSTICS
|
|
CELL CONSTANTS
2
3
The current cell constant for each cell will be displayed.
This information is read-only.
C1
C2
10.0
10.0
To change the values, use the function key labeled
“NEXT”. To exit, use the MENU key.
DIAGNOSTICS
|
| NEXT
EDIT CELL CAL FACTOR
C1 10.101
C2 09.955
For each cell, enter the cal factor found on the plastic tag
hanging from the cell leads.
DIAGNOSTICS
DPP | <-- | -->
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Calibration
8.4 Performing Calibration Trim
Introduction
For most applications entering the cal factor for each cell will achieve satisfactory system
performance. However, it is possible to perform a calibration trim procedure in which the
Analyzer/Controller and cell combination are used to measure a reference solution of known
conductivity; the reading of the Analyzer/Controller is adjusted to match.
The same procedure can be used to adjust the Analyzer/Controller’s reading while the cell is in
the process, if a reference instrument is used to determine the process conductivity. In this case,
the process fluid becomes the “reference solution”.
Materials and procedure
To perform calibration trim using a standard reference solution, follow the instructions in Table
8-3.
Materials required are:
•
A reference solution of known conductivity near the point of interest, with the temperature
controlled (or measured and compensated) to within ± 1 °C. Conductivities of potassium
chloride solutions are provided in Table 8-2. Solutions must be prepared with high-purity
de-ionized, CO2-free water, and dried potassium chloride.
•
•
A container for the reference solution, large enough to immerse the cell to measuring depth.
De-ionized water to rinse the cell.
Table 8-2 Conductivity of Potassium Chloride Solutions at 25 °C
Concentration M*
Conductivity (microsiemens
per cm)
0.001
0.005
0.01
147.0
717.8
1,413
2,767
6,668
0.02
0.05
* M = Molarity; 1M = 74.555g potassium chloride per liter of solution
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Table 8-3 Procedure for Performing Calibration Trim Using a Reference Solution
Step
1
Screen
Action
MENU
CONFIGURATION
CALIBRATION
Prepare container of the reference solution.
MAINTENANCE
I/O SETUP
DIAGNOSTICS
|
|
CALIBRATION
CELL CAL FACTOR
CAL TRIM 1
2
3
Go to CALIBRATION | CAL TRIM C 1.
CAL TRIM 2
REMOVE CAL TRIM C1
REMOVE CAL TRIM C2
DIAGNOSTICS
|
|
CAL TRIM
PUT C1 IN
REFERENCE SOLUTION
ATTENTION
WAIT FOR STABLE
Remove the cell from the process.
Rinse the cell thoroughly with de-ionized water.
Immerse it in the reference solution.
Go to the next screen.
READING!
DIAGNOSTICS
| PREV | NEXT
CAL TRIM C1
4
The display will show the conductivity of the reference
solution as measured by the cell and Analyzer/Controller
system.
147.00 µS
DIAGNOSTICS
|
Once the reading is stable, change the value to match the
actual conductivity of the reference solution at its current
temperature.
|
Press ENTER to save the calibration trim value.
If the calibration trim adjustment is successful, the
calibration menu will again be displayed.
Return the cell to the process and go to Step 6.
CAL TRIM C1
147.00 µS
5
6
If the attempted calibration trim is greater than the
allowable adjustment limit, the operation will not be
successful. The CAL TRIM display will remain on the
screen and an error message will be displayed on the
alarm stripe.
CAL ADJ FAILED
|
|
Check the cell and replace if necessary.
After successful calibration, repeat the operation for the
other cell. When calibration trim has been completed for
both cells, return to the main menu.
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Calibration
8.5 Removing Calibration Trim Values
Introduction
If the calibration is suspect, or if the system operation is being checked using a reference resistor
as described in Appendix D, remove the calibration trim. The Analyzer/Controller will go back
to using the cal factors entered as described in 8.2.
Procedure
To remove the calibration trim value for each cell, follow the procedure in Table 8-5.
Table 8-4 Procedure for Removing Calibration Trim Values
Step
1
Screen
Action
MENU
CONFIGURATION
Go to CALIBRATION | REMOVE CAL TRIM C1.
CALIBRATION
MAINTENANCE
I/O SETUP
DIAGNOSTICS
|
|
CALIBRATION
CELL CAL FACTOR
CAL TRIM 1
CAL TRIM 2
REMOVE CAL TRIM C1
REMOVE CAL TRIM C2
DIAGNOSTICS
|
|
REMOVE CAL TRIM
ATTENTION!
THIS FUNCTION WILL
CANCEL ANY PREVIOUS
CALIBRATIONS
2
3
A calibration trim message will be displayed.
Go to the next screen.
DIAGNOSTICS
|
|
REMOVE CAL TRIM
C1 NO
To specify that you want to remove the trim for the cell,
change the NO to YES.
To execute the removal, press ENTER.
DIAGNOSTICS
|
|
To exit the screen without removing the calibration trim
values, press the MENU key.
Select “REMOVE CAL TRIM C2” from the Calibration
Menu and repeat the procedure to remove the calibration
trim for Cell 2.
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Conductivity/Resistivity Analyzer/Controller
8.6 Determining and Entering the TDS Conversion Factor
Introduction
The 9782 always measures conductivity. However, the process value can be displayed in terms
of total dissolved solids (TDS). If a TDS solution temperature compensation type was specified
during I/O setup, then the calibration menu will contain items used to enter the TDS conversion
factor for each cell.
Determining TDS conversion factor
To determine the TDS conversion factor, it is first necessary to establish the total dissolved
solids in a representative sample of the process. The formal determination of TDS is a laboratory
standard method performed on a weighed grab sample of the process fluid. To summarize how a
obtain a TDS value:
•
•
•
•
Suspended solids, if present, are filtered out.
All water is evaporated.
The residue is dried and weighed.
The result is divided by the original sample weight to obtain ppm TDS.
For detailed guidance in determining the official TDS, see “Standard Methods for the
Examination of Water and Wastewater,” jointly published by the American Public Health
Association, American Water Works Association and Water Pollution Control Federation,
Washington, DC.
To determine the conversion factor needed by the 9782 Analyzer/Controller, first use the
laboratory procedure summarized above to give an official TDS value. Next divide the TDS
value by the conductivity of the sample to yield the conversion factor for that particular process
fluid. The conversion factor is then entered into the 9782 to normalize the TDS readout.
With power plant cation conductivity measurements, ion chromatography results may be used to
establish the conversion factor for readout in ppb chloride or sulfate ion. Nominal values are 83
ppb per µS/cm for chloride ion and 111 ppb per µS/cm for sulfate ion. The 9782 does not
provide temperature compensation in TDS for chloride or sulfate ions.
Out-of range-values forced to closest limit
As long as the entered TDS value is within the acceptable limits for a given cell constant, the
value is accepted by the Analyzer/Controller. If a value is outside the accepted range, the unit
will not display an error message; instead it will force the value to either the high or low limit of
the range of the cell constant. See Table 5-10 for TDS conversion factor defaults.
Calibrate the Analyzer/Controller before entering TDS conversion factor
If you intend to enter a cal factor or use calibration trim, do so before entering the TDS
conversion factor as described here.
If you use calibration trim, first set the solution temperature compensation in I/O setup to the
non-TDS choice for your process. For example, if you plan to use “NaCl (TDS)” set the solution
temperature compensation type to “NaCl” temporarily for calibration purposes. (Solution
temperature compensation type is the one I/O setup parameter that can be changed without
triggering a cold reset.)
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Calibration
Next, perform the calibration. Once calibration has been completed, go back to I/O setup and set
the solution temperature compensation type to the TDS choice, for example “NaCl (TDS)”.
At this point you are ready to enter the TDS conversion factor as described in Table 8-5.
Procedure
To enter the TDS conversion factor follow the instructions in in Table 8-5.
Table 8-5 Procedure for Entering TDS Conversion Factor
Step
1
Screen
Action
MENU
CONFIGURATION
CALIBRATION
Go to CALIBRATION | TDS CVSN FACTOR C1.
MAINTENANCE
I/O SETUP
DIAGNOSTICS
|
|
CALIBRATION
If you plan to calibrate, do it before entering the
theoretically derived TDS conversion factor (see previous
page).
CELL CAL FACTOR
TDS CVSN FACTOR C1
TDS CVSN FACTOR C2
REMOVE CAL TRIM C1
REMOVE CAL TRIM C2
DIAGNOSTICS
|
|
TDS CONVRSN FACTOR
C1 0.5
2
3
Enter the appropriate TDS conversion factor for the
selected cell.
DIAGNOSTICS
| <-- | -->
TDS CONVRSN FACTOR
ACCEPTED AND SAVED
If the factor entered is within the permitted range for the
cell constant (see Table 5-10), the Analyzer/Controller will
use the entered value.
DIAGNOSTICS
|
If the value is out-of-range, the Analyzer/Controller will
force the value to the appropriate range limit.
|
CALIBRATION
4
Once an acceptable factor has been entered for Cell 1,
repeat the process for Cell 2.
CELL CAL FACTOR
TDS CVSN FACTOR C1
TDS CVSN FACTOR C2
REMOVE CAL TRIM C1
REMOVE CAL TRIM C2
DIAGNOSTICS
|
|
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Diagnostics and Messages
9. Diagnostics and Messages
9.1 Overview
Introduction
This section contains information on status and alarm messages, as well as on diagnostics and
system error messages. All these messages are displayed on the “alarm stripe” in “reverse
video”, with the background lit and the letters black. If more than one message is active, the
display will cycle through all the messages, then repeat.
What’s in this section?
The topics in this section are listed below.
Topic
See Page
9-1
9.1 Overview
9.2 System Status Messages
9.3 Process Alarm Messages
9.4 On-Line Diagnostics and System Error Messages
9.5 Off-Line Diagnostics
9-2
9-3
9-4
9-5
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9.2 System Status Messages
Related to operation of Analyzer/Controller
System status messages, displayed on the alarm stripe, are related to normal operation of the
Analyzer/Controller. These messages are listed in Table 9-1.
Table 9-1 System Status Message
MESSAGE
AUTO CLEAN
WHEN DISPLAYED
This message is displayed temporarily and indicates that
an AutoClean operation is active. All alarms and outputs
are held for the duration of the AutoClean operation.
To see how much time is remaining until the next
scheduled AutoClean operation, use the DISPLAY key to
access the special Time Remaining screen.
This message indicates that a calibration operation has
been unsuccessful.
CAL ADJ FAILED
This message is displayed during I/O setup, configuration,
and calibration while the unit retrieves data from its
memory.
RETRIEVING DATA
This message is displayed during I/O setup, configuration,
and calibration while the unit processes data entered by
the user.
ENTERING DATA
User input was either greater than or less than the
allowable range.
INPUT RANGE TOO HIGH
INPUT RANGE TOO LOW
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Diagnostics and Messages
9.3 Process Alarm Messages
Alarms dependent on configuration
Alarms are configurable as described in Section 5. When an alarm is active, it is always
displayed on the alarm stripe. All available alarm messages are shown in Table 9-2.
Table 9-2 Process Alarm Messages
MESSAGE
CELL 1 HIGH ALM
CELL 1 LOW ALM
CELL 2 HIGH ALM
WHEN DISPLAYED
Indicates alarm state, if the Analyzer/Controller is
configured to alarm on the Cell 1 and/or Cell 2 value
exceeding (high alarm) or falling below (low alarm) the
configured alarm setpoint.
CELL 2 LOW ALM
CELL1 OR 2 HIGH ALM
CELL 1 OR 2 LOW ALM
Indicates alarm state, if the Analyzer/Controller is
configured to alarm on a computed value exceeding (high
alarm) or falling below (low alarm) the configured alarm
setpoint.
DIFFERENCE HIGH ALM
DIFFERENCE LOW ALM
% PASSAGE HIGH ALM
% PASSAGE LOW ALM
% REJECT HIGH ALM
% REJECT LOW ALM
PPM CO2 HIGH ALM
PPM CO2 LOW ALM
RATIO HIGH ALM
RATIO LOW ALM
Indicates alarm state, if the Analyzer/Controller is
configured to alarm on the temperature from Cell 1 and/or
Cell 2 exceeding (high alarm) or falling below (low alarm)
the configured alarm setpoint.
TEMP 1 HIGH ALM
TEMP 1 LOW ALM
TEMP 2 HIGH ALM
TEMP 2 HIGH ALM
TEMP 1 OR 2 HIGH ALM
TEMP 1 OR 2 LOW ALM
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Conductivity/Resistivity Analyzer/Controller
9.4 On-Line Diagnostics and System Error Messages
Self-tests at 0.5 second intervals
On-line diagnostics are self-tests which are performed automatically as a background task every
1/2 second. The system error messages (displayed on the alarm stripe if a test is failed) are listed
in Table 9-3.
Output affected by error
In an error condition, the Analyzer will continue to perform all the functions it is capable of
except that the output signal(s) will go to 0%. (Output signal manipulation does not occur with
calibration failure or clock reset diagnostics.)
Table 9-3 On-Line Diagnostics and System Error Messages
SYSTEM ERROR
MESSAGE
WHEN
TESTED
CONDITION
CORRECTIVE
ACTION
background
background
faulty analog-to-digital converter
Have instrument serviced.
A/D CONV FAILURE
CELL 1 OUT OF RANGE
or
Cell reading is out of range for
either the high or low limit of the
selected cell constant. The
cell’s display will stop updating
until the condition and alarm
message clears. Instead, to
indicate an invalid display, the
display will alternately flash 0.0
and either the last known value
or the high end limit for the cell
constant.
Check cell to make sure it is
connected to terminals. Make
sure cell constant is correct for
expected conductivity range.
CELL 2 OUT OF RANGE
background
Cell temperature compensator
faulty
Check cell (see Note 1).
CELL 1 TEMP ERROR
or
CELL 2 TEMP ERROR
CLOCK RESET
after power
failure
Clock is on, but time may be
incorrect, or
Reset the time,
or
clock is off as a result of the
power failure.
if clock is off, turn it on and reset
the time.
at reset
faulty EPROM
Have instrument serviced.
EPROM ERROR
background
data in non-volatile memory has
been changed by a fault
Power down, check power supply
and wiring for high voltage
spikes. Have instrument
serviced, if necessary.
RAM DATA CORRUPTED
at reset
at reset
faulty RAM
Have instrument serviced.
Have instrument serviced.
RAM ERROR
faulty RAM in microprocessor
RAM ERROR IN CPU
Note 1: Temperature compensator should be 8550 ohms at 25 °C. If temperature compensator
fails, a conductivity instrument will be forced to its display range high limit. A resistivity
instrument will be forced to the low end of the range or zero.
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Diagnostics and Messages
9.5 Off-Line Diagnostics
Introduction
The following off-line diagnostics can be initiated by the operator:
•
•
•
display test (see 9.5.1)
keyboard test (see 9.5.1)
output tests (see 9.5.2)
9.5.1 Display and Keyboard Test
Procedure
The procedure for initiating the display and keyboard test is described in Table 9-4.
Table 9-4 Procedure For Initiating Display and Keyboard Tests
Step
1
Screen
Action
MENU
Go to MAINTENANCE | OFF-LINE FUNCTIONS |
DISPLAY TEST.
CONFIGURATION
CALIBRATION
MAINTENANCE
I/O SETUP
DIAGNOSTICS
| PREV | NEXT
MAINTENANCE
OFFLINE FUNCTIONS
INSTRUMENT SETUP
LEAD RESISTANCE COMP
DIAGNOSTICS
| PREV | NEXT
OFF-LINE FUNCTIONS
DISPLAY TEST
KEYBOARD TEST
OUTPUT/RELAY TEST
OUTPUT CALIBRATON
DIAGNOSTICS
| PREV | NEXT
DISPLAY TEST
2
Pressing the specified function key will display a test
pattern on the first line of the display. Press the key
repeatedly to test the rest of the display.
DIAGNOSTICS
|
After confirming that each line of the display is
functional, press the MENU key to return to the off-line
functions menu.
DTEST|
DISPLAY TEST
F1=TOGGLE MENU=ABORT
DIAGNOSTICS
|
|
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Conductivity/Resistivity Analyzer/Controller
Step
3
Screen
Action
OFF-LINE FUNCTIONS
DISPLAY TEST
Go to MAINTENANCE | OFF-LINE FUNCTIONS |
KEYBOARD TEST.
KEYBOARD TEST
OUTPUT/RELAY TEST
OUTPUT CALIBRATON
DIAGNOSTICS
| PREV | NEXT
KEYBOARD TEST
4
Press any key (except MENU) to display the name of
PRESS A KEY
TO TEST
the key.
Use MENU to exit.
MENU TO EXIT
DIAGNOSTICS
|
|
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Diagnostics and Messages
9.5.2 Output Tests
Procedure
Use the procedure in Table 9-5 to test the relays and analog outputs.
Testing the analog outputs requires ammeters or voltmeters as appropriate.
WARNING
While the unit is powered, a potentially lethal shock hazard exists inside the case. Do not open
the case while the unit is powered.
Do not access the output terminal as described below while the unit is powered. More than one
disconnect switch may be required to remove power.
CAUTION
Consider the effects on your process before testing relays with controlled devices active.
Table 9-5 Procedure for Testing Relays and Analog Outputs
Step
1
Screen
Action
Turn off the power to the Analyzer/Controller. More than
one switch may be required to remove the power.
2
With the power off open the case:
• Grasp the bottom center portion of the front bezel and pull it
downward and toward you slightly to disengage the bottom of
the bezel from the edge of the case.
• Lift the bezel gently to disengage it from the top edge of the
case.
• Swing the bezel to the left. (The bezel and display assembly
is mounted on pivot arms.) The safety cover with its warning
label will be visible.
3
4
5
With the power off remove the safety cover by removing the
single screw holding it in place.
Label and remove the field wiring connected to the analog
output terminals.
Feed the test wiring through the conduit hole in the case and
connect the appropriate type of meter to each of the analog
output terminals to be tested. Be sure to observe correct
polarity.
6
Close the case and power up the unit. Do not connect power
until the case is closed.
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Conductivity/Resistivity Analyzer/Controller
Step
7
Screen
Action
MENU
Go to MAINTENANCE | OFF-LINE FUNCTIONS |
OUTPUT/RELAY TEST.
CONFIGURATION
CALIBRATION
MAINTENANCE
I/O SETUP
DIAGNOSTICS
| PREV | NEXT
MAINTENANCE
OFFLINE FUNCTIONS
INSTRUMENT SETUP
LEAD RESISTANCE COMP
DIAGNOSTICS
| PREV | NEXT
OFF-LINE FUNCTIONS
DISPLAY TEST
KEYBOARD TEST
OUTPUT/RELAY TEST
OUTPUT CALIBRATON
DIAGNOSTICS
| PREV | NEXT
OUTPUT TEST
Select the combination of output values to be supplied to the
terminals, or go to the next window for additional choices.
01 02 03 R1R2R3R4
0 0 0 A A A A
25 0 0 A A A A
50 25 0 A A A A
75 50 25 A A N A
DIAGNOSTICS
When one of the rows of output combinations has been
selected, observe the meter readings to check that the analog
output values match those selected. Also listen for the “click”
of an energized relay.
|
| NEXT
If the results of the analog output test are not satisfactory,
recalibrate the output’s zero and span using the procedure in
10.2.
If the results of the relay output test are not satisfactory,
consult Honeywell for assistance.
OUTPUT TEST
01 02 03 R1R2R3R4
100 75 50 A A A N
0 100 75 A N A A
0 0 100 A A N A
0 0 0 A N N N
DIAGNOSTICS
9
Select one of these combinations, or use the specified function
key to return to the previous display.
| PREV |
10
11
If only one meter is available, so that only one output can be
tested at a time, then for each analog output repeat Steps 1
through 9, including powering down the unit before
changing the connections to the output terminals.
When output testing has been completed, re-install field wiring
removed in Step 4. Disconnect power before opening case.
12
13
Replace the safety cover and secure it with the screw.
Close the case and power up the unit. Do not apply power
until case is closed.
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Maintenance
10. Maintenance
10.1 Overview
Introduction
This section provides instructions for a variety of maintenance tasks.
What’s in this section?
The topics in this section are listed below.
Topic
See Page
10-1
10.1 Overview
10.2 Output Calibration
10-3
10.3 Specifying a Tagname or Other Display String
10.4 Viewing Product Information and Changing Model Number Stored in Memory
10.5 Adjusting the Screen Contrast
10-6
10-7
10-9
10.6 Entering a Password for Security
10-10
10-11
10-12
10-14
10.7 Resetting All Configuration and Calibration Values to Factory Settings
10.8 Entering Values for Lead Resistance Compensation
10.9 Replacing the Fuse
WARNING
While the unit is powered, a potentially lethal shock hazard exists inside the case. Do not open
the case while the unit is powered. More than one disconnect switch may be required to remove
power.
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ATTENTION
Most of the operations described in this section are performed with the unit off-line (that is, not
connected to the process). However, some of the operations described in this section are
performed with the Analyzer/Controller on-line. Your process may be affected as soon as you
initiate the maintenance function.
ATTENTION
This equipment contains devices that can be damaged by electrostatic discharge (ESD). The
damage incurred may not cause the device to fail completely, but may cause early failure.
Therefore, it is imperative that assemblies containing static sensitive devices be carried in non-
conductive plastic bags. When adjusting or performing any work on such assemblies, grounded
work stations and wrist straps must be used. If soldering irons are used, they must also be
grounded.
A grounded work station is any conductive or metallic surface connected to an earth ground,
such as a water pipe, with a 1/2 to 1 megohm resistor in series with the ground connection. The
purpose of the resistor is to current limit an electrostatic discharge and to prevent any shock
hazard to the operator. The steps indicated above must be followed to prevent damage and/or
degradation, which may be induced by ESD, to static sensitive devices.
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Maintenance
10.2 Output Calibration
Introduction
The 9782 is available with one or more optional analog outputs. The output signals can be
adjusted to trim the high and low output current or voltage values over a range of ±0.4% of span
to compensate for component tolerance variations.
Required equipment
Output calibration involves connecting a meter to the Analyzer/Controller’s output terminals.
The meter required for output calibration depends on the type of outputs.
•
•
current outputs: current meter capable of resolving 0.01 mA over the range 0 to 20 mA dc
voltage outputs: a 250 ohm ±0.05% shunt and a volt meter (capable of measuring 1 to 5 Vdc
within 1 mV)
A screwdriver to fit the terminal block screws is also required.
Procedure
To calibrate outputs, follow the procedure described in Table 10-1. The output terminals are
inside the case as shown in Figure 6-1.
WARNING
While the unit is powered, a potentially lethal shock hazard exists inside the case. Do not open
the case while the unit is powered. Do not access the output terminal as described below while
the unit is powered.
WARNING
A disconnect switch must be installed to break all current carrying conductors. Turn off power
before working on conductors. Failure to observe this precaution may result in serious personal
injury.
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Conductivity/Resistivity Analyzer/Controller
Table 10-1 Procedure for Calibrating Outputs
Step
1
Screen
Action
Turn off the power to the Analyzer/Controller. More than
one switch may be required to disconnect power.
2
With the power off open the case:
• Grasp the bottom center portion of the front bezel and pull it
downward and toward you slightly to disengage the bottom of
the bezel from the edge of the case.
• Lift the bezel gently to disengage it from the top edge of the
case.
• Swing the bezel to the left. (The bezel and display assembly is
mounted on pivot arms.) The safety cover with its warning label
will be visible.
3
4
5
With the power off remove the safety shield by removing the
single screw holding it in place.
Label and remove the field wiring connected to the analog
output terminals.
Feed the test wiring through conduit hole in the case and
connect the appropriate type of meter to the terminals for the
output to be calibrated. Be sure to observe correct polarity.
6
7
Close the case and power up the unit.
MENU
CONFIGURATION
CALIBRATION
MAINTENANCE
Go to MAINTENANCE | OFF-LINE FUNCTIONS | OUTPUT
CALIBRATION.
I/O SETUP
DIAGNOSTICS
| PREV | NEXT
MAINTENANCE
OFFLINE FUNCTIONS
INSTRUMENT SETUP
LEAD RESISTANCE COMP
DIAGNOSTICS
| PREV | NEXT
OFF-LINE FUNCTIONS
DISPLAY TEST
KEYBOARD TEST
OUTPUT/RELAY TEST
OUTPUT CALIBRATION
DIAGNOSTICS
|
|
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Maintenance
Step
8
Screen
Action
OUTPUT1 SPAN
The first display will reflect the quantity of analog outputs
supported by the hardware.
OUTPUT1 ZERO
OUTPUT2 SPAN
OUTPUT2 ZERO
OUTPUT3 SPAN
OUTPUT3 ZERO
DIAGNOSTICS
Select the value to be calibrated.
Go to the next screen.
|
|
SPAN CAL OUTPUT1
9
Use the UP and DOWN keys to correct the reading on the test
meter.
USE UP/DOWN ARROW
KEYS TO ADJUST
ENTER TO SAVE
To save the correction press ENTER.
DIAGNOSTICS
|
|
OUTPUT CALIBRATION
SAVED
10
This screen confirms that the value was saved.
MENU TO EXIT
DIAGNOSTICS
|
|
11
12
To calibrate additional values, repeat Steps 1 through 10,
including powering down the unit before changing the
connections to the output terminals.
When output calibration has been completed, re-install field
wiring removed in Step 4. Disconnect power before opening
case.
13
14
Replace the safety cover and secure it with the screw.
Close the case and power up the unit. Do not apply power
until the case is closed.
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Conductivity/Resistivity Analyzer/Controller
10.3 Specifying a Tagname or Other Display String
Introduction
The real-time displays of process values show the instrument’s tagname (or other configurable
fixed nineteen-character string) at the top of the screen.
Procedure
Use the procedure in Table 10-2 to specify the text to be displayed on the alarm stripe when no
alarms or other messages are active.
Table 10-2 Procedure for Specifying a Tagname or Other Display String
Step
1
Screen
Action
MENU
Go to MAINTENANCE | INSTRUMENT SETUP |
INSTRUMENT TAGGING.
CONFIGURATION
CALIBRATION
MAINTENANCE
I/O SETUP
DIAGNOSTICS
| PREV | NEXT
MAINTENANCE
OFFLINE FUNCTIONS
INSTRUMENT SETUP
LEAD RESISTANCE COMP
DIAGNOSTICS
| PREV | NEXT
INSTRUMENT SETUP
INSTRUMENT TAGGING
PRODUCT INFO
SCREEN CONTRAST
SECURITY
RESET UNIT
DIAGNOSTICS
| PREV | NEXT
UPDATE TAG DATA
HONEYWELL INC
2
The text string currently stored in memory will be
displayed.
If desired, edit the string (nineteen characters maximum)
using the UP and DOWN keys, and the <-- and --> function
keys.
DIAGNOSTICS
| <-- | -->
Press ENTER or MENU to exit.
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Maintenance
10.4 Viewing Product Information and Changing Model Number
Stored in Memory
Introduction
During I/O setup (see Section 5) the software will display prompts only for those features the
hardware can support. To do this, the software uses the model number of the unit stored in
memory at the factory. Each combination of features has a unique model number (see Section 2).
Therefore, if you add an option card to the 9782, it is very important that you change the model
number stored in memory using the procedure described below.
ATTENTION
A special password is required to change the stored model number. If the password was not
supplied with the new option card, call the Honeywell Technical Assistance Center.
Before calling for technical support, follow the procedure in Table 10-4 to determine the version
of the software in the Analyzer/Controller. The support team will ask for this information.
Procedure
Use the procedure in Table 10-4 to see the software version and model number, and to change
the model number if required.
Table 10-3 Procedure for Viewing Product Information and
Changing the Stored Model Number
Step
1
Screen
Action
MENU
Go to MAINTENANCE | INSTRUMENT SETUP |
PRODUCT INFO.
CONFIGURATION
CALIBRATION
MAINTENANCE
I/O SETUP
DIAGNOSTICS
| PREV | NEXT
MAINTENANCE
OFFLINE FUNCTIONS
INSTRUMENT SETUP
LEAD RESISTANCE COMP
DIAGNOSTICS
| PREV | NEXT
INSTRUMENT SETUP
INSTURMENT TAGGING
PRODUCT INFO
SCREEN CONTRAST
SECURITY
RESET UNIT
DIAGNOSTICS
|
|
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Conductivity/Resistivity Analyzer/Controller
Step
2
Screen
Action
PRODUCT INFORMATION
The software version is read-only information.
SOFTWARE VER: A1.0
MODEL NUMBER:
9782X-nn-Xn-XXXX
If the model number displayed no longer matches the
hardware because you have added or changed an option
card, use the specified function key to edit the model
number. (See Section 2 for available model number
selections.)
DIAGNOSTICS
|
EDIT |
FACTORY PASSWORD
3
4
Note that a special password is required to change the
model number. (This is not the same as the security
password described in 10.7.) Enter it when prompted.
OOOO
ENTER PASSWORD
This password is included with the instructions for installing
the new card.1
DIAGNOSTICS
|
|
MODEL NUMBER:
9782X-nn-Xn-XXXX
DIAGNOSTICS
ATTENTION: Changing the model number stored in
memory will do a “cold reset” of the unit, returning ALL
configuration values to the factory settings shown in Table
5-1. During a cold reset some I/O setup values will also
be returned to the defaults, and the cal factor will be reset
to match the cell constant. The calibration trim or TDS
conversion factor will be removed.
|
|
The “X” values in the model number are “don’t care”
conditions, because these characters do not affect I/O
setup and configuration parameters.
Once you have completed the model number change,
press ENTER to accept the change.
To cancel the edit and avoid resetting the unit, press the
MENU key.
1
If you do not have the factory password, call the Technical Assistance Center at 1-800-423-9883.
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Maintenance
10.5 Adjusting the Screen Contrast
Introduction
The display contrast can be adjusted to suit the viewing conditions at the installation site.
Procedure
To adjust the display contrast, follow the procedure in Table 10-4.
Table 10-4 Procedure for Adjusting the Screen Contrast
Step
1
Screen
Action
MENU
Go to MAINTENANCE | INSTRUMENT SETUP | SCREEN
CONTRAST.
CONFIGURATION
CALIBRATION
MAINTENANCE
I/O SETUP
DIAGNOSTICS
| PREV | NEXT
MAINTENANCE
OFFLINE FUNCTIONS
INSTRUMENT SETUP
LEAD RESISTANCE COMP
DIAGNOSTICS
| PREV | NEXT
INSTRUMENT SETUP
INSTURMENT TAGGING
PRODUCT INFO
SCREEN CONTRAST
SECURITY
RESET UNIT
DIAGNOSTICS
|
|
SCREEN CONTRAST
20
2
Use the UP and DOWN keys to adjust the contrast
between 0 and 20.
USE UP/DOWN ARROW
KEYS TO ADJUST
ENTER TO SAVE
When the displayed contrast is acceptable, use the
ENTER key to return to the instrument setup menu. The
new contrast setting will be saved automatically.
DIAGNOSTICS
|
|
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Conductivity/Resistivity Analyzer/Controller
10.6 Entering a Password for Security
Introduction
I/O setup, configuration, calibration and maintenance functions can be password-protected. The
password can be any number between 1 and 9999. (When the password is zero, the operator will
not be prompted to enter a password.)
ATTENTION
The configurable password entered here is not the same as the special password needed to edit
the model number stored in memory as described in 10.5.
Procedure
Follow the procedure in Table 10-5 to enter a password.
Table 10-5 Procedure for Entering a Password
Step
1
Screen
Action
MENU
Go to MAINTENANCE | INSTRUMENT SETUP |
SECURITY.
CONFIGURATION
CALIBRATION
MAINTENANCE
I/O SETUP
DIAGNOSTICS
| PREV | NEXT
MAINTENANCE
OFFLINE FUNCTIONS
INSTRUMENT SETUP
LEAD RESISTANCE COMP
DIAGNOSTICS
| PREV | NEXT
INSTRUMENT SETUP
INSTURMENT TAGGING
PRODUCT INFO
SCREEN CONTRAST
SECURITY
RESET UNIT
DIAGNOSTICS
|
|
PASSWORD SECURITY
2
To enable the security function, select YES.
ENABLE SECURITY: YES
PASSWORD:
0000
The current password will be displayed. It can be edited
using this screen.
DIAGNOSTICS
|
|
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Maintenance
10.7 Resetting All Configuration and Calibration Values to Factory
Settings
Introduction
A “cold reset” function is available to return ALL configuration values to the factory settings
shown in Table 5-1. During a cold reset the cal factor will be changed to match the cell constant.
The calibration trim or TDS conversion factor will be removed. All alarms will be cleared and
outputs will go to zero. Some I/O setup values will also be returned to the factory defaults.
This “cold reset” contrasts with the “warm reset” that occurs following loss of power and at the
end of system setup (see Section 5). During a warm reset, alarms are not cleared, and outputs are
maintained at their last value prior to the loss of power or initiation of the cold reset. A warm
reset has no effect on configuration or calibration values.
Procedure
To do a cold reset, returning all configuration and calibration values to their factory settings,
follow the procedure in Table 10-6.
Table 10-6 Procedure for Resetting All Configuration to Factory Settings
Step
1
Screen
Action
MENU
Go to MAINTENANCE | INSTRUMENT SETUP | RESET
UNIT.
CONFIGURATION
CALIBRATION
MAINTENANCE
I/O SETUP
DIAGNOSTICS
| PREV | NEXT
MAINTENANCE
OFFLINE FUNCTIONS
INSTRUMENT SETUP
LEAD RESISTANCE COMP
DIAGNOSTICS
| PREV | NEXT
INSTRUMENT SETUP
INSTURMENT TAGGING
PRODUCT INFO
SCREEN CONTRAST
SECURITY
RESET UNIT
DIAGNOSTICS
|
|
UNIT RESET
ATTENTION
ALL PARAMETERS
WILL BE RESET TO
FACTORY DEFAULTS!
2
Pressing the specified function key at this point will
perform a cold reset as described above.
As the reset is completed. the display will go blank, then
for a few seconds product information will be displayed.
Finally, the display will return to showing process values.
DIAGNOSTICS
|
RESET|
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Conductivity/Resistivity Analyzer/Controller
10.8 Entering Values for Lead Resistance Compensation (Wide Range
Only)
Introduction
If you use standard Honeywell cell lead lengths of 7 or 20 feet connected directly to the
Analyzer/Controller, no compensation for lead resistance is necessary. Similarly, if a junction
box is used to extend the leads up to 150 feet, no compensation is required. However, if longer
leads are used (greater than 150 feet), signal quality can be adversely affected unless you enter
information that will permit the 9782 to compensate for lead resistance.
If you use a single wire gauge (12, 14, 16, or 18 AWG) in a length up to 1500 feet, simply
specify the gauge and length as described in Table 10-9.
If mixed wired gauges are used, or lead length or wire gauge are not within the stated ranges, the
9782 can still perform the compensation. However, you must first calculate the lead resistance,
then put it in terms of the available settings for AWG gauge and length.
The resistance of each available gauge choice (in copper wire) is:
12 AWG = 1.6 ohms per 1000 feet
14 AWG = 2.5 ohms per 1000 feet
16 AWG = 4.0 ohms per 1000 feet
18 AWG = 6.4 ohms per 1000 feet
For example, suppose each lead between the cell and Analyzer/Controller consists of 500 feet of
12 gauge wire and 1000 feet of 18 gauge wire.
1000 ft of 18 AWG
500 ft. of 12 AWG
9782
Honeywell
Junction
Box
Conductivity Cell
Figure 10-1 Example of a Conductivity Loop
Because there are two different types of wire used in each lead to the cell in this example, the
total lead resistance is calculated as follows:
(2 x 0.5 x 1.6) + (2 x 1 x 6.4) = 14.4 ohms
Since the 9782 only allows entry of one wire gauge type, we allow for the worst-case condition
by dividing the total resistance by the resistance per thousand feet of the higher resistance gauge
wire. In our example this would be:
14.4 ohms ÷ 6.4 ohms per thousand feet of 18 AWG wire = 2,250 feet
The length to enter is one-half this number, 1125 feet, because the 9782 Analyzer/Controller
already accounts for the fact that there is always a pair of conductor wires in the system loop.
Therefore, in our example we would use the procedure in Table 10-9, and specify the wire gauge
as 18 AWG and the length as 1125 feet.
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Maintenance
Procedure
To use the 9782’s automatic compensation for lead resistance, enter the necessary values using
the procedure in Table 10-7.
Table 10-7 Procedure for Entering Values for Lead Resistance Compensation
Step
1
Screen
Action
MENU
Go to MAINTENANCE | LEAD RESISTANCE COMP.
CONFIGURATION
CALIBRATION
MAINTENANCE
I/O SETUP
DIAGNOSTICS
| PREV | NEXT
MAINTENANCE
OFFLINE FUNCTIONS
INSTRUMENT SETUP
LEAD RESISTANCE COMP
DIAGNOSTICS
| PREV | NEXT
LEAD RESISTANCE COMP
2
Use this screen to specify the gauge used for leads to both
cells, and the length of one lead to each cell.
WIRE GAUGE
WIRE LENGTH
CELL1
12AWG
100FT
150FT
If mixed gauges are used, or the length exceeds 1999 feet,
refer to the Introduction of this sub-section for guidance in
computing the values to enter here.
CELL2
DIAGNOSTICS
| PREV | NEXT
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10.9 Replacing the Fuse
Introduction
Figure 10-1 shows the location of the power fuse on the power supply card in the right-most
position inside the case. (See Section 11 for the part number of the kit containing fuses.)
3
4
5
6
7
8
9
Figure 10-2 Location of Power Fuse
WARNING
Disconnect power before opening the instrument case to replace the fuse. A potentially lethal
shock hazard exists inside the case if the unit is opened while powered. More than one switch
may be required to disconnect power.
ATTENTION
To avoid potentially serious damage to expensive components, a blown fuse should not be
replaced until the cause has been determined by a qualified service technician.
Procedure
To replace the fuse follow the procedure in Table 10-8.
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Maintenance
Table 10-8 Procedure for Replacing the Fuse
Action
Step
1
2
Determine why the fuse blew and correct the problem.
Check the fuse’s packaging (in miscellaneous parts kit 51198177-501) to be sure that the
fuse is correct for the voltage at your site.
3
4
Turn off the power to the Analyzer/Controller. More than one switch may be required to
remove power.
With the power off open the case:
• Grasp the bottom center portion of the front bezel and pull it downward and toward you
slightly to disengage the bottom of the bezel from the edge of the case.
• Lift the bezel gently to disengage it from the top edge of the case.
• Swing the bezel to the left. (The bezel and display assembly is mounted on pivot arms.)
The safety cover with its warning label will be visible.
5
6
With the power off remove the safety cover by removing the single screw holding it in
place.
If more room is needed, remove the circuit card retainer bracket at the top of the case and
pull the circuit card assembly partially out of the instrument case. (It may be necessary to
temporarily disconnect leads from some terminals to do so.)
7
8
Remove the old fuse and insert the new one.
If any leads were disconnected in Step 6, reconnect them.
Replace the safety cover and secure it with the screw.
9
10
Close the case and power up the unit. Do not apply power until the case is closed.
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Accessories and Replacement Parts List
11. Accessories and Replacement Parts List
11.1 Overview
Introduction
This section provides part numbers for field-replaceable parts and for accessories.
What’s in this section?
The topics in this section are listed below.
Topic
See Page
11-1
11.1 Overview
11.2 Part Numbers
11-2
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11.2 Part Numbers
Introduction
Part numbers for field-replaceable parts and accessories are provided in Table 11-1.
Table 11-1 Part Numbers
Kit/Part Number
51198177-501
Description
Parts Included in Kit
Quantity
PARTS COMMON TO ALL 9782 ANALYZERS
Miscellaneous parts for all 9782
controller/analyzers
120 volt fuse
240 volt fuse
case gasket
1
1
1
1
1
2
1
1
1
1
upper card retainer bracket
lower card retainer bracket
screws for retainer brackets
card
installation instructions
card
Output card: single current or voltage
output
Output card: single current or voltage
output with two additional hermetically
sealed relays
51198063-501
51198064-501
installation instructions
Output card: two additional general
purpose relays and no analog outputs
For replacement of existing card
(2 current outputs) on pH/cond. analyzer
For replacement of existing card
(3 current outputs) on pH/cond. analyzer
Non Backlit LCD Display
card
installation instructions
card
installation instructions
card
installation instructions
display
installation instructions
display
installation instructions
bezel
installation instructions
card
installation instructions
card
installation instructions
card
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
4
1
1
1
1
51198065-501
51198066-501
51198067-501
51198176-501
51198176-502
51205783-501
51205501-501
51205502-501
51205503-501
Backlit LCD Display w/solid state LED
Bezel (front cover w/keypad)
Power Supply PC
Microprocessor PC
Backplane PC
installation instructions
cable
Display cable
Case and gasket
51198095-501
51198068-501
case (no bezel)
case gasket
filter cores
Power line filter kit
079163
084711
installation instructions
2 U-bolts for 1 in. pipe
2 U-bolts for 2 in. pipe
mounting plate
hardware
Pipe/wall mounting kit
Panel mounting kit
Reducer panel kit
panel bracket
fuse
hardware
1
056348
056349
installation instructions
panel
1
1
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Accessories and Replacement Parts List
Kit/Part Number
51198066-503
Description
Parts Included in Kit
Quantity
PARTS USED BY CONDUCTIVITY 9782 ANALYZER ONLY
For upgrade of conductivity analyzer
Wide Range: 2 current outputs
card
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
prom
installation instructions
card
For upgrade of conductivity analyzer
Standard Range: 2 current outputs
51198066-504
51198067-503
51198067-504
prom
installation instructions
card
For upgrade of conductivity analyzer
Wide Range: 3 current outputs
prom
installation instructions
card
For upgrade of conductivity analyzer
Standard Range: 3 current outputs
prom
installation instructions
card
installation instructions
card
installation instructions
assembly
installation instructions
assembly
Replacement conductivity standard range
input card
Replacement conductivity wide range
input card
Bezel ass’y. for Non Backlit Display Units
Wide & Standard Range Conductivity
Bezel ass’y. for Backlit Display Units
Wide & Standard Range Conductivity
51198074-501
51198087-501
51198174-501
51205779-501
installation instructions
AVAILABLE CABLES
Part Number
Description
Parts Included
Note
Extension lead wires up to 500 ft - standard range models
834059
3-conductor, 18 gauge cable (Belden
9493)
cable
cable
Note 1
Note 1
835024
coaxial cable (Belden 9259)
Extension lead wires up to 1000 ft - standard range models
834055
835024
4-conductor (3 used), 16 gauge cable
coaxial cable (Belden 9259)
cable
cable
Note 1
Note 1
Extension lead wires up to 500 ft - wide range models
31834052 4-conductor, 18 gauge cable
Extension lead wires up to 1000 ft - wide range models
cable
Note 1
834055
Part Number
31316260
4-conductor, 16 gauge cable
cable
Note 1
Description
Parts Included
Quantity
aluminum junction box for use with
additional cable for distances beyond
150 ft
junction box
installation instructions
1
1
Note 1: Order cable by the length in whole foot increments.
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Proportional Control Tuning
Appendix A
Proportional Control Tuning
Adjust effective proportional band width
The only adjustment in proportional-only control is the effective proportional band width. For
startup, enter the desired control setpoints for discrete control types (or the value representing
0% in CAT control). Set the proportional band limits (value for 100% output) to the extreme
process values anticipated before treatment of the batch.
Treatment takes too long, but no unacceptable overshoot
After observing treatment performance, some improvement may be possible. If treatment takes
too long, and there has been no unacceptable overshoot beyond the setpoint, make one or more
the following changes:
• Increase the reagent delivery capacity.
• Increase the reagent concentration.
• Decrease the proportional band width by adjusting the proportional band limit closer to the
setpoint.
Unacceptable overshoot
If unacceptable overshoot occurs, make one or more of the following changes:
• Increase mixing in the treatment tank.
• Reduce the reagent delivery capacity.
• Reduce the reagent concentration.
• Widen the proportional band by adjusting the proportional band limit further from the
setpoint.
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Two-Cell Applications
Appendix B
Two-Cell Applications
Ion Exchange
Ion exchange operations can achieve especially precise control using the conductivity ratio of
two points with each bed. Ratio measurement accounts for feedwater variations when the
upstream point is measured at the cation bed inlet. With the upstream point in the bed as shown
for following stages, it can identify exhaustion before breakthrough.
Inlet
Cell 2
Cell 2
Cell 1
Cell 2
Cell 1
Cell 1
Cation Bed
D I Water
a/n 23188
Anion Bed
Mixed Bed
Reverse Osmosis
Reverse Osmosis efficiency is monitored by comparing inlet and outlet conductivity (or TDS).
Automatic calculations of Percent Rejection or Percent Passage are provided. If readout is in
resistivity, cell locations are interchanged. Temperature readout assists with normalized
performance comparisons.
C ell 1
C ell 2
R O Unit
Feed
Perm eate
a/n 23189
C oncentrate
Cell1
Cell2
x100
Percent Passage =
Typical Range is 0 to 20%
Typical Range is 80 to 100%
Cell1
Cell2
(1−
)x100
Percent Rejection =
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Conductivity/Resistivity Analyzer/Controller
Conductivity/Resistivity/TDS Difference
Conductivity/Resistivity/TDS difference using redundant cells on critical processes can provide a
valuable diagnostic capability. If the difference in measurements exceeds the alarm points, an
operator is summoned for corrective action. Monitoring may be switched to the alternate cell
during maintenance. For deviation in either direction, two different alarms (+ and -) are used. A
difference kind of diagnostic can be provided by a precision check resistor in place of one cell to
give continuous Analyzer/Controller checking at one value. See also Appendix D.
9782 Analyzer
OutputSignal
Difference Alarm
Cell 2
Cell 1
Process
Parts Rinsing
Parts rinsing is usually controlled by conductivity to obtain adequate rinsing without wasting
excess water, whether a single stage or a counter-current series of tanks. The two-cell ratio
approach can determine whether inadequate rinsing is due to low flowrate or due to poor supply
water quality.
Cell 1
Cell 2
Parts Flow
WasteWater
a/n 23191
Rinse
Water
Cell1
Cell2
Conductivity Ratio =
Typical Ratio Range is 0.1 to 1.1
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Two-Cell Applications
Softener Monitoring
Softener monitoring by conductivity ratio gives a continuous indication of performance. Sodium
is typically more conductive than the hardness minerals it displaces, yielding a higher
conductivity at the outlet. A ratio approaching 1 indicates that hardness ions are breaking through
and that regeneration is needed.
(Hard) Water Supply
Cell 2
Cell 1
a/n 23192
(Soft) Treated Water
Cell1
Cell2
Softening Ratio =
Typical Ratio Range is 1 to 1.25
Steam Power Measurements
The three conductivity measurements in power plants relate to water chemistry parameters as
follows:
•
•
•
•
Specific conductivity -- chemical treatment level
Cation conductivity -- total anion contaminants
Degassed conductivity -- non-volatile anion contaminants
Cation minus degassed conductivities -- carbon dioxide
The 9782 Standard Range Analyzer/Controller includes a complete menu of field-selectable
functions for these determinations. In addition to specialized high purity temperature
compensation for specific and cation conductivity, the 9782 includes reboiler measurement
functions to automate ASTM Test Method D4519 for determining anions and carbon dioxide.
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Conductivity/Resistivity Analyzer/Controller
Specific
Conductivity
Cation
Conductivity
9782
Analyzer
Sample
Cell 1
Cell 2
Cation
Exchanger
Specific
Degassed
Conductivity
(Anions)
Conductivity
Cation
Conductivity
7082
Analyzer
9782
Analyzer
Carbon Dioxide
by Calculation
Sample
Cell 1
Cation
Exchanger
Cell 2
Reboiler
a/n 23193
Sodium Hydroxide & Hydrochloric Acid Concentration Measurements
The measurement range of sodium hydroxide by conductivity is limited by temperature. The
conductivity is limited by temperature. The conductivity of sodium hydroxide reaches a
maximum value near 14% at 0º C and 29% at 100º C. Near the maximum there is poor resolution
and no reliable way to know which side of the peak is being measured. Therefore, the 7082
measurement range is restricted by temperature to assure reliable values. Maximum
concentrations are 10% at 0º C, 13% at 25º C and 20% at 75º C and above, with linear
interpolation between these points. Operation above these limits gives a flashing display.
The measurement range of hydrochloric acid is restricted to less than 15.5% above 40º C and less
than 18% below 40º C.
Appendix B - 4 9782 Series Conductivity/Resistivity Analyzer/Controller - Operator’s Manual
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Microprocessor Board Switch Settings
Appendix C
Microprocessor Board Switch Settings
Introduction
The information in this appendix will not be needed for normal set up and operation of the 9782
Analyzer/Controller. It is included here for use during troubleshooting with the telephone
assistance of the Honeywell Technical Assistance Center.
Location of switches
Two 8-position DIP switches are mounted on the microprocessor board (far left board). The
switch locations are shown in Figure C-1.
Switch 1
Switch 2
1
2
3
4
5
1
6
2
3
4
5
6
7
8
9
Figure C-1 Microprocessor Board DIP Switches
Note that S1 switch (030480), CR1-CR8 and CR12-CR16 (188056) are not used as of June 1993.
SW1 - all positions set to off
Regardless of the options used, all eight switches in SW1 are set to off.
SW2 - settings are dependent on options
The settings of the eight switches in SW2 depend on the options used. The appropriate settings
are shown in Table C-1.
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Conductivity/Resistivity Analyzer/Controller
Table C-1 Microprocessor Board Switch Settings
Option
SW2-1 SW2-2 SW2-3 SW2-4 SW2-5 SW2-6 SW2-7 SW2-8
None
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
Single
Parameter
Current or
Voltage
Output
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
Auxiliary
Relays
OFF
ON
OFF
OFF
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
Two Analog
Outputs
OFF
OFF
Three
ON
Analog
Outputs
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Using a Precision Check Resistor
Appendix D
Using a Precision Check Resistor
Introduction
The operation of the Analyzer/Controller can be verified by replacing the input from a cell with a
precision check resistor across the Analyzer/Controller input terminals. In addition, an 8550
ohm resistor (Honeywell Part No. 233300) can be wired in place of the inputs from the
temperature compensator to simulate 25º C, the reference temperature. The unit will display a
simulated “process value” appropriate for the check resistor installed. (Equations showing the
relationship between resistor rating and displayed value are provided below.) If the displayed
value is incorrect, the Analyzer/Controller should be serviced.
This technique can be used two ways:
•
•
Offline - Install the precision check resistor temporarily in place of the input from either cell
to check the operation of the Analyzer/Controller. When correct operation has been verified,
remove the resistor and replace the field wiring.
Online - To provide a constant check of the Analyzer/Controller’s operation in a critical
process, connect the conductivity cell to the Cell 1 input terminals; instead of a Cell 2 input,
install a check resistor at the Cell 2 input terminals. The Cell 2 “process value” should
always be the appropriate value for the resistor (see equations below). Configure an alarm to
monitor this value.
Set cal factor and calibration trim for ideal conditions
When a check resistor is used instead of cell input, the Analyzer/Controller must be set for
theoretically ideal conditions to achieve display of the appropriate value for the installed resistor.
This means that you set the cell calibration factor to 1.00 and remove the calibration trim for the
cell input being replaced by the check resistor.
Calculations for conductivity, resistivity, and TDS
To verify instrument operation at any point of measurement, calculate the check resistance
needed to simulate that value. (It is assumed that you have selected a display measurement value
that is within the range of your cell constant; see 2.1.5 for ranges.) The equation used depends
on the measurement type. For concentration check values see the table on the following page.
Conductivity check resistance (ohms) = Cell Constant (cm-1) x 106
Conductivity (microSiemens/cm)
Resistivity check resistance (ohms) = Cell Constant (cm-1) x Resistivity (ohm-cm)
TDS check resistance (ohms) = Cell Constant (cm-1) x 106
TDS (ppm)/TDS factor
(TDS factor has units of ppm/microSiemens-cm-1)
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9782 Series Conductivity/Resistivity Analyzer/Controller - Operator’s Manual Appendix D - 1
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Conductivity/Resistivity Analyzer/Controller
Example 1: To determine the check resistor value needed to simulate conductivity measurement
of 10 µS, use cell constant 0.1 and perform the following calculation:
10 k ohms = (0.1) x (1,000,000)
10
Example 2: To determine the check resistor value needed to simulate resistivity measurement of
10 M ohms, use cell constant 0.01 and perform the following calculation:
100 K ohms = (0.01) x (10,000,000)
Concentration values
If a wide range model is used for concentration measurement, obtain the appropriate check
resistance value from the table below.
Data for Concentration Range Measurements
Material/Weight % Concentration
Simulation Resistance (ohms) @ 25º C
Cell Constant
10
25
50
Hydrochloric Acid (HCl)
0
1
4
∞
242.5
68.9
∞
485.0
137.7
Sulfuric Acid (H2SO4)
0
1
4
∞
215.5
56.0
∞
538.7
140.0
∞
1077.4
280.0
Sodium Chloride (NaCl)
0
1
4
∞
574.1
195.2
∞
1435.1
398.0
∞
2870.3
796.1
Sodium Hydroxide (NaOH)
0
1
4
∞
189.2
54.0
∞
473.0
135.1
∞
946.1
270.1
Appendix D - 2 9782 Series Conductivity/Resistivity Analyzer/Controller - Operator’s Manual
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Industrial Automation and Control
Honeywell, Inc.
1100 Virginia Drive
Fort Washington, Pennsylvania 19034
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